Fin août 2014, les Presses Commerciales de Pékin (l'une des plus grandes maisons d'édition chinoise, éditrice, entre autres, du Dictionnaire Xinhua - le dictionnaire le plus vendu au monde) ont sorti un volume de plus de 2000 pages, le « Dictionnaire Ricci Chinois-Français », une édition révisée et raccourcie du Grand Ricci , le dictionnaire publié en 2001 par les Instituts Ricci de Taipei et Paris, dont les droits ont depuis été confiés à « l'Association Ricci pour le grand dictionnaire français de la langue chinoise » . L'ouvrage devrait atteindre les librairies de Chine début octobre.
Depuis les premiers contacts entre les Instituts Ricci et les Presses commerciales (Shangwu), il aura fallu attendre quinze ans... Mais le délai était largement justifié : les Presses commerciales ont effectué un travail d'exception, qui fait de ce dictionnaire – et pour très longtemps – l'outil de référence lexicographique entre le chinois et le français. Le choix des expressions a été fait avec scrupule, les expressions douteuses ou fautives ont été corrigées, un choix éclairé de nouvelles expressions venues du chinois contemporain a été introduit sans pour autant affadir l'ancrage du Ricci dans l'histoire de la langue et de la pensée chinoises. Les traditions lexicographiques combinées des Presses Commerciales et des Ricci ont livré ensemble ce qu'elles avaient de meilleur... Ouvrant le dictionnaire, je me remémorais avec joie ma première visite dans le « temple » intimidant des Presses Commerciales en 1999 : Zhang Wenying, l'éditrice qui m'accueillait alors a finalement coordonné jusqu'au bout le projet. Entre tous les partenaires impliqués, la confiance et l'estime n'ont fait que croître au long des années.
L'origine du grand Ricci remonte au « Bureau d'étude sinologique » de Zikawei, à Shanghai, dans les années 1880, et au travail accompli par les sinologues jésuites français Léon Wieger et Séraphin Couvreur dans le Hebei à partir de la même époque. Il avait été repris notamment par les pères Eugen Zsamar, Yves Raguin, Jean Lefeuvre et Claude Larre après qu'ils avaient quitté la Chine. Il était grand temps que ce fruit de la sinologie jésuite « rentre » en Chine, et qu'il le fasse corrigé, mûri, porté à fruition par la meilleure institution lexicographique chinoise. La parution du « Ricci-Shangwu » n'est pas seulement un événement éditorial. Ancrée dans une longue histoire, elle est un signe fort de fidélité et d'espérance.
Opinions, Dreams & Videos
This paper was presented at the "Tamkang School of Strategic Studies 2014 Annual Events" (4/25-4/27), and is going to be published by Tamkang University Press as a book chapter by the end of 2014. Two abridged versions of this paper have been published as articles on The Diplomat and The Eurasia Review, but here the paper appears in its entirety.
舉頭望明月 "Upwards the glorious Moon I raise my head." [ 李白 "Li Bai", 701-762]
When poets and lovers gaze at the Moon, they might also be looking at a clean and abundant resource that could meet the bulk of the global energy demand. In a world where energy requirements are bound to increase and fossil fuels are finite resources, the cratered satellite may offer mankind a way out of the energy conundrum: Helium-3. This element is a light, non-radioactive, and extremely rare on Earth isotope of helium that is mooted as the fuel of the future to enable nuclear fusion as a power source. It has been calculated that there are over one million tonnes of helium-3 on the lunar surface down to a depth of a few metres. Mining the Moon for the precious isotope, shipping it to our planet - and developing suitable fusion reactors - would provide clean energy for the next millennia. Alas, the costs and scientific challenges of such an enterprise would be phenomenal. Nonetheless, China - which allocates a stable and expectedly growing budget for space activities - appears determined to make it a reality of tomorrow. For years, Beijing has been systematically and patiently building up the key competence and platforms needed for an advanced lunar exploration program, under the conviction that 'walking on the Moon' is a reflection of a country's comprehensive national power. China stresses that its space program is for peaceful purposes and maintains its lunar mining would be for the benefit of all humanity. However, given the absence of wilful competitors, it is also speculated that the Chinese intend to lock up the resources of the Moon and establish a helium-3 monopoly. Thus, the question of whether China will act as a benevolent lunar dragon or create a helium-3 'hydraulic empire' might become one of immense relevance in the next decade.
Keywords: Moon, China, Helium-3, Nuclear Fusion, Lunar Exploration
"Secure, reliable, affordable, clean and equitable energy supply is fundamental to global economic growth and human development and presents huge challenges for us." [World Energy Council, World Energy Scenarios: Composing energy futures to 2050, 2013]
According to a 2013 United Nations report, the world population is projected to reach 9.6 billion by 20501. Of those future earthlings, 1.6 billion will live in India, and 1.3 billion in China2. By then, Nigeria's population is expected to surpass that of the United States3. Also, the forty-nine least developed countries are going to double in size from around 900 million people in 2013 to 1.8 billion4. In light of these figures, it is not difficult to understand that humanity is going to face an increasingly acute energy trilemma - how to simultaneously achieve and balance energy security, energy equity (access and affordability) and environmental sustainability - in the coming decades5. "Conservatively, [...] more than a nine-fold increase in annual energy production needs to be made available by middle of the 21st Century"6 and, in the not so distant future "we have to replace oil, and in the next century we have to replace natural gas - and these two, taken together, represent sixty per cent of the total energy use of every country today."7 By factoring in that, as the Chinese government's white paper China's Energy Policy 2012 states, "energy is the material basis for the progress of human civilization and an indispensable basic condition for the development of modern society,"8 it is then easy to see that the trilemma poses a really formidable and frightening challenge.
As the world's second largest energy consumer, China is paying every effort to develop clean and unconventional energy in order to quench its thirst for energy.9 Beijing is profoundly aware of the imperative of addressing the trilemma.10 In fact, powering an economy the size of China's, especially the size it will be in three decades, only by burning massive quantities of finite fossil fuels and relying on conventional nuclear power is not an option.11 Besides making China unsustainably energy insecure and growingly politically unstable, this would eventually result into the country's environmental, socio-economic and political collapse, and destructively impact the rest of the world.12 Also, the rampaging competition for fossil fuels in the international arena would generate intense geopolitical frictions, fuel regional tensions and breed armed conflicts that would make the international system savagely Hobbesian and highly flammable.13 For all these reasons, apart from investing in conventional energy sources, China is also focusing on renewable and unconventional energy, and has made it a strategic priority.14 Beijing has even officially declared war on pollution,15 and is not going to leave any stone unturned in the search for a long-term, stable, and biosphere-friendly energy source.16
China's energy policies are in a state of rapid flux, but coal and other fossil fuels are still the source of the vast majority of China's energy consumption today. Currently, coal accounts for 67 percent of the energy consumed in the Asian giant, oil is the second largest source (17 percent).17 This situation cannot be changed overnight and, as a popular Chinese saying reminds us "water from afar cannot put out a fire close at hand" [遠水救不了近火], id est a slow remedy cannot meet an urgency. For this reason, the Chinese are pouring substantial resources into and placing their bet on the most futuristic and elusive of unconventional energies: nuclear fusion. In essence, developing nuclear fusion means to develop "what has been labelled 'unconventional nuclear technologies' in order to solve the world's impending energy crisis."18 Achieving fusion requires sparking and controlling a self-sustaining 'star in a bottle', "using temperatures of 200 million degrees Celsius to get atoms [...] to fuse together, releasing huge amounts of energy in the process."19 Beijing is also actively fostering conventional nuclear power as a source of electricity generation, although it makes up only a very small percentage of generating capacity at present - a fraction that is expected to grow to 6 percent by 2035.20 However, nuclear fission power plants produce vast quantities of radioactive waste to store, have catastrophic incidents on their record, and are limited by the fact the world's uranium stocks may run out in a couple of hundred years.21 "Fusion on the other hand," as Steven Cowley - director of the Culham Centre for Fusion Energy and chief executive of the UK Atomic Energy Authority - points out, "gets its fuels, deuterium and lithium, from seawater - not only in plentiful supply but easily accessed, a definite bonus for an increasingly energy-insecure China. Moreover, fusion produces no significant waste. Against the background of a global struggle to dispose of toxic waste piles, this is a weighty advantage."22
Yet, while other scientific challenges have been overcome, a breakthrough in controlled thermonuclear energy (fusion power) seems to be always 'thirty years away'. Notably, The US National Academy of Engineering regards the construction of a commercial thermonuclear reactor, as one of the top engineering challenges of the twenty-first century.23 Most fusion research has focused on deuterium and/or tritium (heavy isotopes of hydrogen) as fuel for generating fusion. Deuterium is found in abundance in all water on earth while tritium is not found in nature but can be produced by the neutron bombardment of lithium.24 However, the nuclear fusion Gordian knot could be untied by shifting to another isotope on the periodic table of elements: helium-3.
2. Helium-3: Rare under Heaven
"But when the black gold's in doubt There's none left for you or for me Fusing helium-3 Our last hope." [Muse, Explorers, The 2nd Law, 2012]
Helium-3 is a light, non-radioactive isotope of helium with two protons and one neutron. Even though this gas is found naturally as a trace component in reservoirs of natural gas and also as a decay product of tritium - one of the elements used in making the hydrogen bomb - there is extremely little helium-3 on our planet.25 In 2010, University of Wisconsin-Madison's nuclear chemist Layton J. Wittenberg calculated that the potential helium-3 availability from natural and man-made resources on Earth for scientific experimentation was a mere 161 Kgs.26 The stockpile of nuclear weapons, the best current terrestrial source of the gas, provides only a supply of 15 kg circa a year. Helium-3 has applications in many domains. On the one hand, it is used in complex low temperature physical measurements as well as in certain magnetic resonance imaging (MRI) in hospitals. On the other hand, the gas has such valuable military applications that the US army's security services use it for the detection of dirty bombs.27 Although helium-3 is already in high demand for many reasons, it could become a universally coveted commodity thanks to its extraordinary energy properties, namely for its future use in nuclear fusion to generate electric power with no dangerous and long-lasting radioactive by-products.28
Fission power plants use a nuclear reaction to generate heat which turns water into steam which then hits a turbine to produce power. Current nuclear power plants have nuclear fission reactors in which uranium nuclei are split apart. This releases energy, but also radioactivity and spent nuclear fuel that is reprocessed into uranium, plutonium and radioactive waste which has to be safely and time-proof stored.29 For decades scientists have been working to obtain nuclear power from nuclear fusion rather than nuclear fission. In current nuclear fusion reactors, the hydrogen isotopes tritium and deuterium release atomic energy when their nuclei fuse to create helium and a neutron. Nuclear fusion employs the same energy source that fuels the Sun and other stars, without yielding the radioactivity and nuclear waste that is the by-product of nuclear fission power generation.30 However, the 'fast' neutrons released by nuclear fusion reactors fuelled by tritium and deuterium lead to significant energy loss and are immensely difficult to contain.31 One potential solution may be to use helium-3 and deuterium - "substituting helium-3 for tritium significantly reduces neutron production, making it safe to locate fusion plants nearer to where power is needed the most, large cities"32 - or helium-3 alone as the fuel in 'aneutronic' (power without emission of neutrons) fusion reactors. "Perhaps the most promising idea is to fuel a third-generation reactor solely with helium-3, which can directly yield an electric current - no generator required. As much as seventy percent of the energy in the fuels could be captured and put directly to work,"33 out-pacing coal and natural gas electricity generation by twenty percent.34
Nuclear fusion reactors using helium-3 could therefore provide a highly efficient form of nuclear power with virtually no waste and negligible radiation.35 In the words of Matthew Genge, lecturer at the Faculty of Engineering at the Imperial College in London, "nuclear fusion using Helium-3 would be cleaner, as it doesn't produce any spare neutrons. It should produce vastly more energy than fission reactions without the problem of excessive amounts of radioactive waste."36 Moreover, eliminating the use of slightly radioactive tritium in the fusion process, by using deuterium and helium-3 for fuel, also has the benefit of simplifying the engineering to meet radiation standards. Also, tritium is not an abundant, naturally occurring isotope of hydrogen on Earth, because of its short half-life of 12.3 years. For Deuterium-Tritium fusion, the tritium would have to be bred from lithium, in a blanket surrounding the inside of the fusion reactor, which is a complication that would be eliminated with Deuterium-Helium-3 fusion.37
Actually, the Helium-3 fusion process is not simply theoretical.38 The University of Wisconsin-Madison Fusion Technology Institute successfully performed helium-3 fuelled fusion experiments. To date, scientists have only been able to sustain a fusion reaction for a few seconds, but with nothing near the scale or energy yield necessary to be released for commercial use.39 In fact, the development of commercial fusion reactors is dependent upon demonstrating 'break-even': producing as much energy as it is needed to start the reaction.40 So far, deuterium-Helium-3 or Helium3-Helium 3 fusion has not yet come close to break-even.41 However, with massive investments in nuclear fusion research, commercial fusion reactors might become a reality within the next three decades.42 At that point, the demand for Helium-3 would skyrocket. Presently, even though nuclear fusion does not even work properly yet, helium-3 is so scarce and in demand that in 2010 the US Department of Energy officially lamented a critical shortage in the global supply43 and is already worth US$16 million per kilo.44
Indeed, Helium-3 is really rare 'under Heaven'. How about 'above Heaven'? Actually, the Sun - like all stars - continuously emits helium-3 within its solar wind, which consists largely of ionized hydrogen and ionized helium. The reason why Helium 3 is so rare on the Earth is that the terrestrial atmosphere and magnetic field prevent any of the solar helium-3 from arriving on our planet. However, as the Moon does not have an atmosphere, there is nothing to stop helium-3 arriving on the surface of our satellite and being absorbed by the lunar soil.45 Given that The Moon has been bombarded for billions of years by solar wind, helium-3 is available in the dust of the lunar surface.46 It has been calculated that there are about 1,100,000 metric tonnes of helium-3 on the lunar surface down to a depth of a few metres (since the regolith - i.e. the lunar soil - has been stirred up by collisions with meteorites).47 More precisely, according to two Chinese scientists, the lunar inventory of Helium-3 is estimated as 6.50×1^8 kg, where 3.72×1^8 kg is for the lunar nearside and 2.78×1^8 kg is for the lunar far side.48 Helium-3 could potentially be extracted by heating the lunar dust to around 600 degrees C, before bringing it back to the Earth to fuel a new generation of nuclear fusion power plants.49 Professor Gerald Kulcinski, Director of the Fusion Technology Institute, University of Wisconsin-Madison, maintains that about 40 tonnes of helium-3 - which equate to two fully-loaded Space Shuttle cargo bay's worth - could power the United States for a year at the current rate of energy consumption, without causing smog, acid rain and radioactive waste.50 This would require mining an area the size of Washington, D.C. Besides, several other valuable materials - such as oxygen, nitrogen, and carbon monoxide and dioxide - will be produced in the course of recovering the helium-3.51 It comes as no surprise, then, that the gas has a potential economic value in the order of US$ 1bn to 3bn a tonne, making it the only thing remotely economically viable to consider mining from the Moon given current and likely-near-future space travel technologies and capabilities.52
3. "Upwards the glorious moon I raise my head"
"Be praised, my Lord, through Sister Moon and the stars; in the heavens you have made them, precious and beautiful." [Francis of Assisi, Canticle of the Sun, 1224]
A team of University of Wisconsin scientists has calculated that if the entire lunar surface were mined, and all of the helium-3 were used for fusion fuel on Earth, it could meet world energy demand for over 10,000 years. In addition, given the estimated potential energy of a ton of helium-3 (the equivalent of about 50 million barrels of crude oil),53 helium-3 fuelled fusion could free the world from fossil fuel dependency, and is likely to increase mankind's productivity by orders of magnitude.54 But to supply the planet with fusion power for centuries, humanity has first to return to the Moon. Although mining helium-3 on the cratered satellite to power the Earth has been in the minds of scientists and political deciders since the end of the Apollo program in the early 1970s, to date only China has embarked on a long-term endeavour to achieve such an ambitious goal, having established a satellite-based lunar exploration program called the Chang'e Project (Chang'e is a fairy living on the moon in a Chinese legend) in 2004.55 The question is: why China? The opinion of Michael C. Zarnstorff, deputy director of research for Princeton Plasma Physics Laboratory, can assist in the quest for the answer. "They [China] need a lot more energy due to their increasing population, and they really want to get rid of the pollution problems they have."56 If Beijing is able to mine the lunar helium-3 and effectively use it for fusion power, then it could avert China's environmental crisis. In addition, the People's Republic would become a major energy resource player and "offer a clean energy option to countries looking to wean themselves from oil dependency."57
Besides having "lots of cash and lots of educated people,"58 China is graced with a pervasively strategic culture, according to which thorough preparedness and long-term planning are the keys to success.59 Also, China's one-party political system, in which the leadership of the Chinese Communist Party is the most important factor in determining the future of the country and the generational turnover at the top happens by co-optation once a decade,60 guarantees that strategic policies are consistently implemented over many years, rather than being reneged on or upturned at every budget or change of administration as it is often the case with Western democracies.61 Normally, in the 'State of the Center' long-term plans are ably enacted by highly selected practical visionaries undisturbed by democracy's glitches62 who are acutely aware that addressing the energy trilemma is vital for regime survival and that conversion to a sustainable world economy is the only way to go. Moreover, going to the Moon to harvest helium-3 is synergistically compatible with and reflective of the values and ambitions of President Xi Jinping's 'Chinese Dream'. The 'Chinese dream' slogan was launched soon after Xi's inauguration and has quickly become the new national mantra. The expression is used to describe the aspiration of individual and collective self-improvement in Chinese society and calls for patriotic unity under one-party rule. Interestingly, the 'Chinese Dream' vision also includes a space exploration élan,63 Mr. Xi having emphasized that "the space dream is an important part of the dream of a strong nation."64 Indeed, for a country like China, spacefaring and moonwalking are greatly instrumental to consolidating its legitimacy as a rising power. And many Chinese see their space program as the symbol of their once-impoverished nation's ascension to economic and technological primacy.65
As Joan Johnson-Freese, a United States Naval War College in Rhode Island professor who researches China's space activities, has pointed out: "China's getting a lot of prestige, which turns into geostrategic influence, from the fact that they are the third country to have manned spaceflight capabilities, [...] that they are going to the moon."66 Professor Ouyang Ziyuan (歐陽自遠), the chief scientist of the Chinese Lunar Exploration Program appears to agree. "Lunar exploration is a reflection of a country's comprehensive national power. It is significant for raising our international prestige and increasing our people's cohesion," he told the media. But the Moon could also become an energy cornucopia. Professor Ouyang explained that solar panels would operate far more efficiently on the airless lunar surface and believes that a "belt" of them could "support the whole world" provided the generated electricity is sent back to Earth via lasers or microwaves.67 Plus, the Moon is "so rich" in helium-3, that this could "solve human beings' energy demand for around 10,000 years at least."68 In light of the statements above, it is clear that Beijing's lunar program represents a triple-win venture. Internationally, lunar expeditions "will increase China's political influence in the world."69
Domestically, 'conquering the Moon' would bolster the consensus for the political leadership and prop up Chinese national pride. Thirdly, on the energy security side, tapping into the Moon has the potential to make China not only energy self-sufficient and secure, but also turn the Chinese into the 'helium-3 Arabs' of the 21st century, especially in case they get to enjoy the position of monopolists. China would then become not only an energy superpower able to fix its social and environmental problems, but also the center of a global helium-3 hydraulic empire.70 The "spice must flow, and he who controls the spice, controls the universe!" Frank Herbert, the author of Dune, would say.71
Officially China's lunar program has three official main goals. The first is to gain technological skill. Secondly, the Chinese scientists seek to understand the moon's evolution and compare it with Earth.72 Thirdly, "in terms of talent, China needs its own intellectual team who can explore the whole lunar and solar system." Additionally, it is acknowledged that the rationale for a long-term program is that "there are many ways humans can use the Moon,"73 and that Beijing is planning a lunar base.74 As for the exploitation of the lunar resources, on the one hand the Chinese have repeatedly declared that they are going to utilize them "to benefit the whole of mankind,"75 on the other hand, Professor Ouyang has tellingly remarked that "Whoever first conquers the Moon will benefit first."76 In order to achieve such goals and eventually 'use the Moon,' the lunar exploration program consists of three stages: 1) flying around the Moon. Respectively in 2007 and 2010, Beijing launched the Chang'e-1 and Chang'e-2 unmanned lunar probes to circle the Moon and map its surface to get three-dimensional images of the body from space. Scientists then analyzed the information sent back by the orbiters. 2) Landing on the moon. In December 2013 the Chang'e-3 mission, incorporating a robotic lander and China's first lunar rover, reached the Moon. The wheeled rover explored the vicinity of the landing area and radar-scanned the lunar subsurface structure. The second phase of the program will be completed by the Chang'e-4 mission, incorporating a robotic lander and rover, which is scheduled for launch in 2015. 3) Returning from the moon. The Chang'e-5 mission may be launched in 2017 or 2018 to further explore the Moon and collect lunar soil, and then would return soil and rock samples to China for first-hand examination. Only after the completion of these three phases China will be finally able to land human beings on the Moon.77 According to British space scientist Richard Holdaway, China could have astronauts treading on the regolith by 2025.78
4. To the Moon (and beyond)!
"We choose to go to the moon. We choose to go to the moon in this decade and do the other things, not because they are easy, but because they are hard, because that goal will serve to organize and measure the best of our energies and skills, because that challenge is one that we are willing to accept, one we are unwilling to postpone, and one which we intend to win, and the others, too." [John F. Kennedy, Moon Speech at Rice University, 1962]
As observed by former US astronaut and geologist Harrison Schmitt, Chinese scientists and experts have framed Beijing's space program partially in terms of their nation's constant quest for energy and raw materials, "talking about helium-3 and solar power as potential energy sources on the moon, as well as its reserves of titanium, rare earths, uranium and thorite."79 This 'pursuit of lunar resources' theme has then been combined with a 'geopolitical competition' discourse conveying a sense of urgency. "If China doesn't explore the moon, we will have no say in international lunar exploration and can't safeguard our proper rights and interests,"80 Professor Ouyang declared in 2010, hinting that progress in the lunar program would confer an edge to China if and when the extraction of the Moon's riches turns political. The 15 December 2013 edition of the Beijing Youth Daily argued that "China can obtain a certificate to sharing lunar interests only by carrying out exploration and gaining actual results." It also contended: "How to protect China's interest in outer space has become an inevitable question."81 Dean Cheng, an expert on China's space program at the Heritage Foundation, got the message clear. "Once you start mining, and even before, questions arise as to ownership, as to profit-sharing (if any), as to who has the ability to establish and enforce claims in space," he said. "A long-term presence in space will give China political capital."82 Thirdly, the lunar program has been presented to policy makers and the general public as a cost effective investment. For example, the chief scientist of the program has stressed that the total spending of Chang'e-1 mission was about RMB 1.4 billion, the same amount as the money used to construct two kilometers of subway in Beijing.83 Similarly, the Chinese political leaders can be reminded that, according to experts in the US , the total estimated cost for fusion development, rocket development and starting lunar operations would be about US$15-20 billion over two decades.84 By comparison, another big nuclear fusion project (on Earth), the International Thermonuclear Reactor Project (ITER) has an estimated total cost of now €15 billion (US$20.5 billion),85 and going to the Moon to mine helium-3 would cost "about the same as was required for the 1970s Trans Alaska Pipeline."86 Actually, US$ 15-20 billion does not appear to be an excessive financial commitment for a country which is to spend US$ 1.7 trillion between 2011-2015 - in the form of investment, assistance for state-owned enterprises, and bank loans - for a plan aiming at covering 11.4 percent of China's energy needs by 2015, and 15 percent by 2020, from non-fossil energy.87
Finally, the seductiveness of China's lunar vision has been enhanced with two additional charms: China's technological advancement and solar system exploration. As for the first, Ouyang Ziyuan's speeches often mention the achievements of the US Apollo program (1963-1972) in order to illustrate the transformational characteristics of any lunar project. The Chinese scientist reminds his audiences that Washington spent US$25.4 billion on the Moon's exploration at that time, which has thus far yielded an output worth fourteen times the original investment, leading to the birth of several new hi-tech industries and technologies such as the rocket, radar, radio guidance and so on, which were then put into civil use.88 The implication is that China's Moon exploration and colonization are going to be the catalyst for revolutionary technological progress that can transform the country's entire industrial landscape and bring a galaxy of economic and social benefits.89 However, helium-3 remains the biggest gem on the selenitic crown. If it is postulated that the commercial value of helium-3 will be US$3 billion/ton,90 and defensively estimated that there are 1 million tons of the precious gas trapped in the regolith,91 then the whole stock of lunar helium-3 would be worth an astonishing three quadrillion dollars. That is more than enough to cover the costs and risks of extracting and shipping it back to Earth. Finally, it should be kept in mind that while rocket fuel and consumables now cost an average of $20,000 per pound to lift off Earth, resources could instead be carried off the Moon much more economically. Given that the lunar gravitational pull is inferior to the Earth's, 83.3% (or 5/6) less to be exact,92 transporting material from the moon requires just 1/14th to 1/20th of the fuel needed to lift material up from the terrestrial surface.93
Financial considerations apart, helium-3 would be crucial for what perhaps is the most ambitious goal of China's lunar program: setting up a lunar base and using the Moon as a stepping-stone for space exploration.94 In order to turn the Moon into an operational headquarters for scientific experimentation and further exploration of the solar system, a lunar base should be established first.95 Helium-3 would be crucial for achieving that. In fact, the immediately available by-products of helium-3 production include hydrogen, water, and compounds of nitrogen and carbon. Oxygen can be easily produced by electrolysis of water. Thus, by mining Helium-3 Moon settlers would be able to obtain the air and water they would need to make lunar colonization sustainable.96 In essence, extracting helium-3 produces the resources we need to gather more of it.97 Lunar helium-3 could also become the premier rocket fuel of the future, turning the Moon into the launching pad or a refueling service station for space-bound missions. It appears that in the permanently darkened craters of the Moon's polar regions there are significant reserves of water (ice) that can be melted, purified and electrolyzed into hydrogen and oxygen.98 One by-product would be hydrogen peroxide for rocket fuel. Hydrogen can be obtained also as a by-product of helium-3 mining. Yet, helium-3 would offer ginormous advantages over hydrogen if it is used a nuclear rocket fuel. As John Slough, a University of Washington's professor of aeronautics and astronautics explains, "Using existing rocket fuels, it is nearly impossible for humans to explore much beyond Earth."99 NASA estimates a round-trip human expedition to Mars would take more than four years using current technology, but according to Slough the same voyage could be completed in maximum-three-month expeditions on a spaceship powered by fusion.100 Helium-3 would then be the best candidate as fuel for the fusion engines because it is abundant on the Moon and would provide far more power per unit of mass than chemical rocket fuels.101 Moreover, helium-3 as fusion fuel greatly reduces neutron production and therefore would be the safest option for the crews of ships.102
In the light of all these elements, it is clear that China is not just re-enacting and repeating the past US space program, but intends to shape the future. Beijing's grand plan to mine lunar helium-3 should be understood as "the first step toward creating a scientific and economic revolution which will power global economic growth and open the entire Solar System to mankind."103
5. Game of Moons
"A trader from Quarth told me that dragons come from the Moon." [Game of Thrones, Season 1, Episode 2, 2011]
Two years before the Apollo 11 mission, a treaty was signed by the United States, the United Kingdom, and the Soviet Union. Inked even as the race to plant a flag on the lunar soil was well underway, the 1967 Outer Space Treaty stipulated that no nation-state could ever own the Moon.104 According to the Treaty - to which 102 countries, including the People's Republic of China (which joined in 1983), are currently parties105 - Activities on the Moon may be pursued freely without any discrimination of any kind, and countries can place vehicles, personnel, stations, and facilities anywhere on or below the surface. However, as said above, neither the surface nor the subsurface of the Moon can become the property of any country or its citizens. In fact, a 2009 Statement by the Board of Directors of the International Institute of Space Law clarifies that: "The current international legal regime is binding both on States and, through the precise wording of Article VI of the Outer Space Treaty of 1967, [...] also on non-governmental entities, i.e. individuals, legal persons and private companies. [...]Since there is no territorial jurisdiction in outer space or on celestial bodies, there can be no private ownership of parts thereof, as this would presuppose the existence of a territorial sovereign competent to confer such titles of ownership."106 Also, as leading international law of space scholar Harold Bashor points out: "There are no rights of ownership for any natural resources in place. [...] This is generally interpreted to mean that a country may not claim ownership of any resources until they have been extracted. Yet, any extraction is required to be for the benefit of mankind according to the Common Heritage of Mankind principle."107 Moreover, since the Moon is to be explored and exploited for peaceful purposes, Bashor argues, states have an obligation not to interfere with the activities of any other state on the Moon, and any conflict has to be reported to the United Nations.108 Alas, the current system is predicated heavily on good faith, and whether future Moon-settling countries will behave fairly is yet to be seen. "A system lacking a clear legal framework has thus far worked for scientific ventures, such as the International Space Station. But history tells a different story when big businesses and competing nations turn their sights on a new frontier."109
This said, which states are actually going to play 'game of Moons'? As many as eleven robotic lunar missions including orbiters, rovers and sample return missions are to be launched between now and 2020.110 China (2015; 2017-18),111 Russia (2016;2019),112 India (2017),113 Japan (2018)114 and the US (2018)115 all have missions planned during this period, while new players eyeing post 2020 Moon missions may include South Korea (2020),116 while the European Space Agency's Lunar Lander project has been shelved due to budgetary constraints.117 Those states giving serious study to the launch of manned Moon missions by 2020-2030 are China,118 and Russia,119 Japan (in collaboration with the US),120 and perhaps India.121 Even though it appears that there are going to be several contenders playing the selenitic game, what is really needed in order to extract helium-3 and the other lunar resources is a lunar base. Hence, only two chess-pieces remain standing on the board: the People's Republic of China and the Russian Federation. Officials from both Beijing and Moscow have declared that their countries are going to build a base on the Moon. On 8 January 2014, Zhang Yuhua - Deputy General Director and Deputy General Designer of the Chang'e-3 probe system revealed that: "In addition to manned lunar landing technology, we are also working on the construction of a lunar base, which will be used for new energy development and living space expansion."122 His words echo Oyuang Ziyuan's 2002 mantic statement: "China will establish a base on the moon as we did in the South Pole and the North Pole."123 In Russia's case, the announcement has come from the upper echelons. Deputy premier Dmitry Rogozin, who is in overall charge of Russia's space and defence industries, writing about the "colonisation of the moon and near-moon space" on the 10 April 2014 issue of the official daily Rossiiskaya Gazeta stated that Moscow plans to establish a lunar base for long-term missions to the Moon by 2040. Rogozin affirmed that that Earth's satellite is the only realistic source to obtain water, minerals and other resources for future space missions. A lunar laboratory complex will also be used for testing new space technologies. "This process has the beginning, but has no end. We are coming to the Moon forever," he promised.124 Despite Rogozin's rhetoric, it might be surmised that the Chinese are better positioned in the race for lunar helium-3. For a start, they have more money and resources, began "from a long way back but now they are catching up fast,"125 and "by the end of the decade [...] want to move from being what is classed as a major space power to being a strong space power." Tellingly, "within a little more than a decade, the only working space station in orbit could be Chinese."126 In sum, Beijing backs words with facts. For this reason, when asked if the idea of a Chinese lunar base extracting minerals was remotely plausible, the afore-mentioned Prof. Richard Holdaway: "It is perfectly plausible from the technical point of view, absolutely plausible from the finance point of view because they have great buying power."127 Buying power will be certainly needed, given that a 2009 analysis by the Center for Strategic and International Studies estimated that a four-person research station on the lunar surface would cost US$35 billion to build and US$7.35 billion per year to operate.128
If China wins the 'race for the Moon' and establishes a manned outpost conducting helium-3 mining operations, it would create a scenario similar that of the 2009 movie Moon. In that motion picture, a private company called Lunar Industries has built a mining base on the Moon and enjoys a helium-3 extraction and shipping monopoly - the same kind of monopoly that in the past created the fortunes of ventures like the East India Companies.129 Unlike that fictional universe, in the case of a Chinese lunar base the monopoly would be held by a state. The ramifications and consequences of such a scenario would be 'cosmic'. First, "China is what international relations scholars call a 'revisionist power,' seeking opportunities to assert its enhanced relative position in international affairs."130 Thus, establishing an automated or manned helium-3 operation on the Moon would be a spectacular statement of grandeur.131 Secondly, due to the inevitable depletion of fossil fuels on Earth, Beijing would be in a position to gradually build a helium-3 hydraulic empire in which it would control the supply of the precious gas, and become the only energy superpower. The making of such an empire would be most likely met with resistance. Plausibly, the prospect of China's energy supremacy, which would undoubtedly transubstantiate into pervasive geopolitical influence, would cause geopolitical tension, agglutinate anti-Chinese alliances, and prompt the other space-faring nations - the US in primis - to rush to the Moon to break the Dragon's monopoly. Then, a scenario similar to that described in Limit, a science and political fiction novel by Frank Schatzing set in a 2025, seeing China and the US develop a new Cold War for lunar helium-3 taking the space race of yesteryear to new heights. Thirdly, China might decide to acquire or retain control over helium-3 deposits by annexing lunar regions. International law would be neither an impassable hurdle nor an effective deterrent. Although the 1967 Outer Space Treaty asserts common ownership over everything in the universe beyond the Earth and requires all countries to share in the benefits of space,132 its article 17 permits signatory states to withdraw from the treaty with only a year's notice.133 Unilateral withdrawal by one of the major space-faring powers would undermine the existing international legal regime in space, prompting the other players to secure a piece of the pie in the sky for themselves. This would start a period of colonialism reminiscent of that in 19th century. Having established a permanent manned lunar base, China would be able to substantiate its claim by satisfying an important criterion for sovereignty: the wishes of the inhabitants. Also, claims over lunar areas beyond China's 'red side of the Moon' by other powers would legitimize Beijing's acquisition of its new selenitic dominions (where Chinese sovereignty would provide regulations and protection for private investors to operate).134 Once in control of vast helium-3 fields, China could even astutely play the 'game of Moons' by favouring the settlement and encouraging the territorial claims of non-hostile or friendly powers - for example other BRICS countries - in order to contain Western expansion and access to helium-3 on the lunar surface. Finally, China could decide to use its lunar base as a military asset "to dominate access on and off our planet Earth and determine who will extract valuable resources from the moon in the years ahead."135 More piercingly put, "the Moon could hypothetically be used as a military battle station and ballistic missiles could be launched against any military target on Earth"136 or in space. Our planet's celestial sister could also become one of the battlefields of future 'helium-3 conflicts', which would be simultaneously fought or spill-over on lunar, space and Earth domains.137 If this will turn into 'tomorrow's truth', then helium-3 will not just fuel the future, but also future rivalries and wars. The price for global energy security would then be global geopolitical insecurity.
6. Conclusion: A Call to Cooperation
"There was a time when energy was a dirty world - when turning on your lights was a hard choice. Cities in brown out, food shortages, cars burning fuel to run. But that was the past, where are we now? How did we make the world so much better, make deserts bloom? Right now we're the largest producer of fusion energy in the world. The energy of the sun, trapped in rock, harvested by machine from the far side of the moon. Today we deliver enough clean burning Helium-3 to supply the energy needs of nearly 70% of the planet. Who'd have thought, all the energy we ever needed, right above our heads. The power of the moon. The power of our future." ['Lunar Industries Commercial' in Duncan Jones, Moon, 2009]
The 'game of Moons' scenarios evoked in the previous pages are not anticipations of an inescapable future. On the contrary, lunar exploration and resources development can be international cooperation synergizers and confidence building catalysts. Consistently, the Beijing Declaration, issued at the 2008 Global Space Development Summit in Beijing, calls for international cooperation "in all the applicative fields of space [...] as the world enters a challenging period characterized by globalization, dramatic population growth, serious environmental concerns and scarcity of resources."138 By 2050 there will be a dire paucity of all the economically recoverable fossil fuels (there would still be plenty of coal, but can humankind afford to put up with greenhouse gases?). "Also, all alternative sources of energy, like water power, solar power, tidal power, wind power, geothermal power, and wood will not be sufficient to supply more than 10 percent of the energy which will be needed by the 20 billion people that will be on earth at that time. We will be out of energy and forced to seek a new source,"139 predicted a venerable scholar at the turn of the millennium. And Sister Moon, "precious and beautiful,"140 can tend the Earth its energy salvation. The helium-3 trapped in the lunar soil offers humanity about ten times the energy that could be obtained from mining all the fossil fuels on Earth, without causing apocalyptic pollution. Also by tossing all the Earth's uranium into liquid metal fast breeder reactors, we could generate about half this much energy.141 But some men will have to cross the sky and conquer the Moon, and other people will have to tame particles, to open a new future up to humanity. Indeed, the quest for helium-3 is involved with the dynamics of succumbing to or reversing the process of global collapse. Common destiny and enlightened self-interest both dictate cooperation among all space-faring nations. Two countries in particular have greater responsibilities than the others: the US and China.
In almost every area of space activity, the US has a clear technological and operational advantage over other countries, including China. For example, in 2012 NASA landed the Curiosity rover on Mars, a much more difficult task than the Chang'e 3 mission by any measure.142 However, the US star does not shine as bright as in the past due to budget cuts, and a reluctance to maintain its space leadership143 as revealed by the cancellation of the American project designed to take humans back to the Moon (Constellation Program).144 On the other hand, even though Beijing's overall budget in space programmes is still rather moderate compared with that of the US, China appears to have what Confucius would describe as "the will to win, the desire to succeed, the urge to reach its full potential" in lunar and space exploration. The Chinese are quickly developing their own space technology kung fu and are currently collaborating with other countries such as Russia, Brazil, France, Germany and, very fruitfully, with the European Space Agency145 - but not with the US. Actually, China has recently made several overtures to the US. For example, Xu Dazhe, the new chief of China's space industry, while attending the International Space Exploration Forum in Washington in January 2014 said: "We are willing to cooperate with all the countries in the world, including the United States and developing countries."146 "The US, however, is wary of entering in any type of collaborative interaction with the Chinese, primarily for national security reasons ranging from technology transfer concerns to a general mistrust of the People's Liberation Army's involvement in Beijing's space program. Consequently, in 2011 Washington "has enacted Public Law 112-10, Public Law 101-246 and Public Law 106-391 to suspend all bilateral activities between NASA and the Chinese in spaceflight projects."147 Furthermore, China was barred from participating in the current orbiting space station, largely because of US objections over political differences.148 By contrast, the Chinese said they will welcome foreign astronauts aboard their future space station, which is scheduled to become operational in 2020.149
While the US government's duty and prerogative to protect national security is not in question, the issue of collaborating with China in space activities should be considered in the light of the benefits of going back to the Moon and establishing a settlement for the production of the Helium-3 fusion fuel. Working with the Chinese as part of a global effort to solve the energy conundrum would then become "the next logical step."150 For sure, combining forces would make humanity's pursuit of helium-3 power, quicker, cheaper and more efficient. Starting a cooperative effort, inclusive of China and the US, for lunar exploration would, first of all, require each participant a change of mindset as well as adopting an approach based on the four principles indicated by the Beijing Declaration: mutual benefit, transparency, reciprocity, and cost sharing.151 Actually, the same document identifies the development of a lunar base as the ideal next project for international collaboration on space exploration.152 Creative politics and diplomacy will also play a crucial role in ensuring good governance and fair dividends to all parties. New legal regimes for exploiting helium-3 and other lunar resources could be designed and approved. A new international regime, organization or enterprise for the cooperative development and terrestrial fusion of lunar helium-3 may be needed.153 Many diverse solutions will be possible as long as a sense of common destiny will be shared by the moon-settling nations. The race for making available a safe, clean and revolutionary source of energy to all human beings should not have any loser, only winners. Thus, civilizational or national egoisms should be left back on Earth. Helium-3 power is not meant to be the flame casting deep shadows over a new Dark Age, but the glorious light of a global renaissance: an era in which people will look at the Moon through a clear unpolluted sky. In Washington as in Moscow, New Delhi or Beijing.
1 United Nations, Department of Economic and Social Affairs, Population Division, Population Estimates and Projection Section, "World Population Prospects: The 2012 Revision." 27 February 2014 (last update), http://esa.un.org/unpd/wpp/index.htm
2 World Bank, "Population Projection Tables by Country and Group." 2014, http://web.worldbank.org/WBSITE/EXTERNAL/TOPICS/EXTHEALTHNUTRITIONANDPOPULATION/EXTDATASTATISTICSHNP/EXTHNPSTATS/0,,contentMDK:21737699~menuPK:3385623~pagePK:64168445~piPK:64168309~theSitePK:3237118,00.html
3 United Nations, Department of Economic and Social Affairs, Population Division, Population Estimates and Projection Section, "World Population Prospects: The 2012 Revision."
5 Christoph Frei et al., World Energy Scenarios: Composing energy futures to 2050, World Energy Council, 2013, p. 218.
6 Harrison H. Schmitt et al., "Lunar Helium-3 Fusion Resource Distribution," University of Wisconsin - Madison, 2011, p. 2.
7 Guenter Janeschitz as quoted in Raffi Katchadourian, "A Star in a Bottle," New Yorker, 3 March 2014, http://www.newyorker.com/reporting/2014/03/03/140303fa_fact_khatchadourian
8 Information Office of the State Council of the People's Republic of China, China's Energy Policy 2012, October 2012, p. 2.
9 China Briefing, "China to Encourage Corporate Participation in Shale Gas Exploration", 10 October 2011, http://www.china-briefing.com/news/tag/unconventional-energy#sthash.xPnedxzY.dpufand
10 Chang Chung Young and Fabrizio Bozzato, "The Dragon is Thirsty: China's Quest for Energy," International Conference on the Making of New Asia: Migration, Identity, Interaction and Security, Fo Guang University, Taiwan, 5-6 November 2011. See also: Jenny Lin, "China's Energy Security Dilemma," Projet 2049 Institute, 13 February 2012.
11 Joseph P. Giljum, "The Future of China's Energy Security," The Journal of International Policy Solutions, No. 11, 2009, pp. 12-24.
12 See, for example, Scott Doney, "Oceans of Acid: How Fossil Fuels Could Destroy Marine Ecosystems," PBS, 12 Feb 2014, http://www.pbs.org/wgbh/nova/next/earth/ocean-acidification/
13 Michael T. Klare, "Fueling the Dragon: China's Strategic Energy Dilemma," Current History, Issue 150, April 2006, p. 180.
14 Information Office of the State Council of the People's Republic of China, China's Energy Policy 2012, October 2012.
15 Reuters, "China to 'declare war' on pollution, premier says," 4 March 2014, http://www.reuters.com/article/2014/03/05/us-china-parliament-pollution-idUSBREA2405W20140305
16 Maria Van Der Hoeven, "Strategizing for Energy Policy: China's Drive to Reduce Dependence," Harvard International Review, Vol. 35, No. 1, Summer 2013, pp. 14-25.
17 Joachim Betz, "The Reform of China's Energy Policies," German Institute of Global and Area Studies Working Papers, No. 216, February 2013, p. 6. Also, biomass and waste: 9 percent; hydro-power: 3 percent; Natural gas: 3 percent; nuclear power: 1 percent; and other renewable sources: 0.2 percent.
18 Mark Piesing, "Big nuke vs little nuke: how the nuclear establishment is stifling innovation," Wired, 21 February 2012, http://www.wired.co.uk/news/archive/2012-02/21/nuclear-establishment-hinders
19 Olivia Boyd, "Nuclear fusion: an answer to China's energy problems?," China Dialogue, 2 December 2013, https://www.chinadialogue.net/article/show/single/en/5699
20 Ibid, p. 8.
21 Scientific American, "How long will the world's uranium supplies last?", 26 January 2009, http://www.scientificamerican.com/article/how-long-will-global-uranium-deposits-last/
22 Steven Cowley as quoted in Olivia Boyd, "Nuclear fusion: an answer to China's energy problems?"
23 Raffi Katchadourian, "A Star in a Bottle."
24 Egbert Boeker and Rienk van Grondelle, Environmental Physics: Sustainable Energy and Climate Change, John Wiley & Sons, Chichester, 2011, p. 66.
25 Marsha R. D'Souza, Diana M. Otalvaro and Deep Arjun Singh, Harvesting Helium-3 from the Moon, Worcester Polytechnic Institute, 2006, pp. 18-25.
26 Layton J. Wittenberg, "Helium-3 Resources and Acquisition for Use as Fusion Fuel in Aries III," in Farrokh Najmabadi, Robert W. Conn, et al., The ARIES-III Tokamak Fusion Reactor Study - The Final Report, University of California-San Diego, Advanced Energy Technology Group, Center for Energy Research, p. 15-5.
27 Dana A. Shea and Daniel Morgan, "The Helium-3 Shortage: Supply, Demand, and Options for Congress", Congressional Research Service, 7-5700, 22 December 2010, pp. 1-20.
28 Satish Kumar and Kopal Gupta, "Helium-3 As An Alternate Fuel Technology (for Producing Electricity)," Journal of Department of Applied Sciences & Humanities, Vol. IV, 2006, pp. 77-84
29 World Nuclear Association, "Nuclear Power Reactors," November 2013, http://www.world-nuclear.org/info/nuclear-fuel-cycle/power-reactors/nuclear-power-reactors/
30 World Nuclear Association, "Nuclear Fusion Power," February 2014, http://www.world-nuclear.org/info/current-and-future-generation/nuclear-fusion-power/
31 Lawrence Berkeley National Laboratory, "Nuclear Fusion Power," 9 August 2000, http://www.lbl.gov/abc/wallchart/chapters/14/2.html
32 Stefano Coledan, "Mining The Moon," Popular Mechanics, 7 December 2004, http://www.popularmechanics.com/science/space/moon-mars/1283056
33 Singam Jayanthu, Bhishm Tripathi and Arjun Sandeep, "Scope of Mining on the Moon - A Critical Appraisal," Golden Jubilee celebration & MineTECH'11 of The Indian Mining & Engineering Journal, Raipur, 18-19 November 2011, p. 2.
34 Keith Veronese, "Could Helium-3 really solve Earth's energy problems?" io9, 5 November 2012, http://io9.com/5908499/could-helium-3-really-solve-earths-energy-problems/all
35 Gary Pajer et al., "Modular Aneutronic Fusion Engine," Princeton Plasma Physics Laboratory, May 2012.
36 Matthew Genge as quoted in Henry Gass, "Plans to strip mine the moon may soon be more than just science-fiction," The Ecologist, 4 July 2011, http://www.theecologist.org/News/news_analysis/962678/plans_to_strip_mine_the_moon_may_soon_be_more_than_just_sciencefiction.html
37 Marsha Freeman, "Mining the Moon To Power the Earth," Executive Intelligence Review, 24 January 2014, http://www.larouchepub.com/other/2014/4104moon_power_earth.html
38 Matt Treske, "Moon Power," Wisconsin Engineer, Vol. 116, No. 1, November 2011 http://old.wisconsinengineer.com/articles/191
39 National Academy of Engineering, "Provide energy from fusion," 2012, http://www.engineeringchallenges.org/cms/8996/9079.aspx
40 Bruno Maffei, "The Physics of Energy sources Nuclear Fusion," University of Manchester, 2012, p.10
41 Mohammad Mahdavi and Behnaz Kaleji, "Deuterium/helium-3 fusion reactors with lithium seeding," Plasma Physics and Controlled Fusion, Vol. 51, No. 8, July 2009, pp. 85003-0
42 Sergei V. Ryzhkov, "Alternative Fusion Reactors as Future Commercial Power Plants," Journal of Plasma and Fusion Research, Vol. 8, April 2009, pp. 35-38.
43 David Kramer, "DOE begins rationing helium-3," Physics Today, June 2010, http://ptonline.aip.org/journals/doc/PHTOAD-ft/vol_63/iss_6/22_1.shtml?bypassSSO=1
44 Henry Gass, "Plans to Strip Mine the Moon May Soon be More Than Just Science-Fiction," Global Research, 7 July, 2011, http://www.globalresearch.ca/plans-to-strip-mine-the-moon-may-soon-be-more-than-just-science-fiction/25542?print=1
45 Christopher Barnatt, "Helium-3 Power Generation," ExplainingTheFuture.com, 13 September 2012, http://www.explainingthefuture.com/helium3.html
46 Harrison Schmitt, Return to the Moon: Exploration, Enterprise, and Energy in the Human Settlement of Space, Copernicus Books, New York, 2007, pp. 48-51.
47 Artemis Society International, "Lunar Helium-3 as an Energy Source, in a nutshell," 2007, http://www.asi.org/adb/02/09/he3-intro.html
48 Wenzhe Fa and Ya-Qiu Jin, "Quantitative estimation of helium-3 spatial distribution in the lunar regolith layer," Icarus, No. 190, April 2007, pp. 15-23.
49 Alfred O. Nier and Dennis J. Schlutter, "Extraction of Helium from Individual IDPs and Lunar Grains by Pulse Heating," Meteoritics, Vol. 27, No. 3, July 1992, http://adsabs.harvard.edu/abs/1992Metic..27Q.268N
50 Richard Bilder, "A Legal Regime for the Mining of Helium-3 on the Moon: U.S. Policy Options," Fordham International Law Journal, Vol. 33, No. 2, January 2010, p. 246.
51 Marsha Freeman, "Mining the Moon to Power the Earth."
52 Christopher Barnatt, "Helium-3 Power Generation."
53 Joshua E. Keating, "Is There Money In the Moon? Maybe Someday," Foreign Policy, 18 June 2012, http://www.foreignpolicy.com/articles/2012/06/18/is_there_money_in_the_moon
54 Marsha Freeman, "Mining the Moon to Power the Earth."
55 Liu Yuanhui, "Reaching the Moon," China Radio International's English Service, 13 December 2013, http://english.cri.cn/7146/2013/12/12/2561s803034.htm
56 Michael C. Zarnstorff as quoted in Brandon Southward, "China's quest for a new energy source heads to space," CNN Money, 20 December 2013, http://features.blogs.fortune.cnn.com/2013/12/20/chinas-quest-for-a-new-energy-source-heads-to-space/
57 Brandon Southward, "China's quest for a new energy source heads to space."
58 Steven Cowley as quoted in Olivia Boyd, "Nuclear fusion: an answer to China's energy problems?"
59 Gilbert Rozman, Chinese Strategic Thought Toward Asia, Palgrave Macmillan, New York, 2012, pp. 1-6.
60 Xiaowei Zang, Elite Dualism and Leadership Selection in China, Routledge, London and New York, 2004, pp. 147-162.
61 Walter Wang, "Long Term Planning Puts China on a Different Path," CleanTechies, 16 August 2011, http://cleantechies.com/2011/08/16/long-term-planning-puts-china-on-a-different-path/
62 Robert Lawrence Kuhn, How China's Leaders Think: The Inside Story of China's Past, Current and Future Leaders, John Wiley & Sons, Chichester, 2011, pp. 580-590.
63 The Economist, "Reaching for the Moon," 21 December 2013, http://www.economist.com/news/china/21591884-xi-jinping-has-consolidated-power-quickly-now-he-showing-it-reaching-moon
64 Xi Jinping as quoted in The Economist, "Reaching for the Moon."
65 Cole Pfeiffer, "Asia's space race: China looks to dominate the final frontier," Foreign Policy Today, 11 December 2013, http://www.fptoday.org/asias-space-race-china-looks-to-dominate-the-final-frontier/
66 Joan Johnson-Freese as quoted in Chris Buckley, "China blasts off to moon with rover mission," Seattle Times, 2 December 2013, http://seattletimes.com/html/nationworld/2022376926_chinamoonxml.html?syndication=rss
67 Lulu Zhang, "Chief scientist chides narrow view on lunar project," China.org.cn, 17 December 2013, http://china.org.cn/china/2013-12/17/content_30917626.htm
68 Ouyang Ziyuan as quoted in David Shukman, "Why China is fixated on the Moon," BBC, 29 November 2013, http://www.bbc.com/news/25141597
69 Ouyang Ziyuan as quoted in Antoaneta Bezlova "China reaps a moon harvest," Asia Times Online, 30 October 2007, http://www.atimes.com/atimes/China/IJ30Ad01.html
70 Karl A. Wittfogel, Oriental Despotism: A Comparative Study of Total Power, New York, Random House, 1957.
71 Brian Herbert, Dreamer of Dune: The Biography of Frank Herbert, Tom Doherty Associates, New York, 2003, p. 172.
72 Julie Sullivan, "Why is China interested in the Moon? Lunar Program Secrets Revealed," Headlines and Global News, 30 November 2013, http://www.hngn.com/articles/18419/20131130/why-china-is-interested-on-the-moon-lunar-program-secrets-revealed.htm
73 Ouyang Ziyuan as quoted in David Shukman, "Why China is fixated on the Moon."
74 Marsha Freeman, "China Takes Next Step Toward Lunar Industrial Development," Beijing Review, No. 9, 27 February 2014, http://www.bjreview.com.cn/forum/txt/2014-02/24/content_598245_2.htm
75 Information Office of the State Council of the People's Republic of China, China's Space Activities in 2011 - I. Purposes and Principles of Development, 29 December 2011, http://china.org.cn/government/whitepaper/2011-12/29/content_24280462.htm
76 Ouyang Ziyuan as quoted in Ajey Lele, Asian Space Race: Rhetoric Or Reality?, Springer India, London, 2013, p. 170.
77 Ling Xin, "An Interview with Ouyang Ziyuan: Chang'e-3 and China's Lunar Missions," Bulletin of the Chinese Academy of Sciences, vol. 27, no. 4, November 2013, pp. 26-31.
78 David Shukman, "Why China is fixated on the Moon."
79 Harrison Schmitt as quoted in Simon Denyer "China launches 'Jade Rabbit' rover to moon, precursor to manned mission," Washington Post, 2 December 2013, http://www.washingtonpost.com/world/china-launches-jade-rabbit-rover-to-moon-precursor-to-manned-mission/2013/12/02/87ba7d1a-5b13-11e3-801f-1f90bf692c9b_story.html
80 Ouyang Ziyuan as quoted in Jonathan Adams, "Dragon watch: China pulls ahead in moon race," Global Post, 2 November 2010, http://www.globalpost.com/dispatch/china/101027/space-race-moon?page=0,1
81 Beijing Youth Daily as reported in The Asahi Shimbun, "ANALYSIS: Lunar success marks China's rise as next space power," 16 December 2013, http://ajw.asahi.com/article/asia/china/AJ201312160060
82 Dean Cheng as quoted in Jonathan Adams, "Dragon watch: China pulls ahead in moon race."
83 Ling Xin, "An Interview with Ouyang Ziyuan: Chang'e-3 and China's Lunar Missions," p. 229.
84 Steve Almasy, "Could the moon provide clean energy for Earth?" CNN, 21 July 2011, http://edition.cnn.com/2011/TECH/innovation/07/21/mining.moon.helium3/
85 Dave Keating, "Oettinger aims to get ITER back on track," European Voice, 5 September 2013, http://www.europeanvoice.com/article/imported/oettinger-aims-to-get-iter-back-on-track/78100.aspx
86 Harrison Smith as quoted in Cecilia Jamasmie, "Mining the Moon is Closer than Ever," Mining.com, 1 January 2010, http://www.mining.com/mining-the-moon-is-closer-than-ever/
87 Arthur Guschin, "China's Renewable Energy Opportunity," Diplomat, 3 April 2014, http://thediplomat.com/2014/04/chinas-renewable-energy-opportunity/
88 Lulu Zhang, "Chief scientist chides narrow view on lunar project."
89 South Central University for Nationalities, "Chief Scientist of CLEP Ouyang Ziyuan was Named Honor Professor of SCUN," 14 November 2012, http://en.scuec.edu.cn/s/148/t/499/a9/5a/info43354.htm
90 Steve Taranovich, "Helium-3 and Lunar power for Earth reactors," EDN Network, 15 March 2013, http://edn.com/electronics-blogs/powersource/4410034/Helium-3-and-Lunar-power-for-Earth-reactors
91 University of Wisconsin-Madison - Fusion Technology Institute, "Lunar Mining of Helium-3," 12 March 2014 (updated), http://fti.neep.wisc.edu/research/he3
92 Fabrizio Tamburini et al., "No quantum gravity signature from the farthest quasars," Astronomy & Astrophysics, Vol. 533, A71, September 2011, p. 5.
, C. Cuofano2, M. Della Valle3,4 and R. Gilmozzi5
93 Ray Villard, "Strip Mine the Moon to Fuel Space Exploration," Discovery Communications, 13 July 2011, http://news.discovery.com/space/moon-mining-needed-to-fuel-space-exploration-110713.htm
94 Defang Kong and Qian Zhang, "Manned lunar landing under research," People's Daily Online, 8 January 2014, http://english.peopledaily.com.cn/202936/8506408.html
95 Sarah Fecht, "Six Reasons NASA Should Build a Research Base on the Moon," National Geographic, 20 December 2013, http://news.nationalgeographic.com/news/2013/12/131220-lunar-research-base-mars-mission-science/
96 William A. Ambrose, James F. Reilly II and Douglas C. Peters (eds.), AAPG Memoir 101: Energy Resources for Human Settlement in the Solar System and Earth's Future in Space, American Association of Petroleum Geologists, Tulsa, 2013, p. 41.
97 At the University of Wisconsin, Dr. Kulcinski and his colleagues have designed a ten ton regolith mining machine called the Mark 3. They predict that one of their Mark 3 robotic miners could process six million tons of regolith per year and produce 201 tons of hydrogen, 109 tons of water, 0.033 tons of helium 3 (that's 33 kg.), 102 tons of helium 4, 16.5 tons of nitrogen, 63 tons of carbon monoxide, 56 tons of CO2 and 53 tons of methane. The CO, CO2 and CH4 contain a total of 82 tons of carbon. These researchers have chosen to heat the regolith only up to 700 C. See: Gerald L. Kulcinski , A Resource Assessment and Extraction of Lunar 3He, Presented at the US-USSR Workshop on D-3He Reactor Studies, 25 September- 2 October 1991, Moscow.
98 National Space Agency, "Researchers Estimate Ice Content of Crater at Moon's South Pole," 20 June 2012, http://www.nasa.gov/mission_pages/LRO/news/crater-ice.html
99 John Slough as quoted in Michelle Ma, "Rocket powered by nuclear fusion could send humans to Mars," University of Washington News and Information, 4 April 2013, http://www.washington.edu/news/2013/04/04/rocket-powered-by-nuclear-fusion-could-send-humans-to-mars/
100 Michelle Ma, "Rocket powered by nuclear fusion could send humans to Mars."
101 John F. Santarius, "Lunar 3He, Fusion Propulsion, and Space Development," Proceedings of the Second Conference on Lunar Bases and Space Activities of the 21st Century (Houston, Texas, 5-7 Apr 1988), NASA Conference Publication 3166, Vol. 1, p. 75 (1992).
102 John F. Santarius, Role of Advanced-Fuel and, Innovative Concept Fusion in the Nuclear Renaissance, APS Division of Plasma Physics Meeting, Philadelphia, 31 October 2006
103 Marsha Freeman, "Mining the Moon to Power the Earth."
104 K.R., "Lunar property rights - Hard cheese," Economist, 16 February 2014, http://www.economist.com/blogs/babbage/2014/02/lunar-property-rights
105 United Nations Office for Disarmament Affairs, Treaty on Principles Governing the Activities of States in the Exploration and Use of Outer Space, including the Moon and Other Celestial Bodies, http://disarmament.un.org/treaties/t/outer_space, (retrieved) 11 April 2014.
106 International Institute of Space Law, Statement of the Board of Directors of the International Institute of Space Law (IISL), 22 March 2009.
107 Harold Bashor as quoted in Leonard David, "Moon Water: A Trickle of Data and a Flood of Questions," Space.com, 06 March 2006, http://www.space.com/2120-moon-water-trickle-data-flood-questions.html
109 Joshua Philipp, "Mining the Moon: Plans Taking Off, but Rules Lacking," Epoch Times, 29 January 2014, http://www.theepochtimes.com/n3/476806-mining-the-moon-plans-taking-off-but-rules-lacking/
110 Craig Covault, "The New Race for the Moon," SpaceRef, 4 October 2013, http://spaceref.com/asia/the-new-race-for-the-moon.html
111 Ningzhu Zhu, "China plans to launch Chang'e 5 in 2017," Xinhua, http://news.xinhuanet.com/english/china/2013-12/16/c_132971252.htm
112 Igor Mitrofanov et al., 'Luna-Glob' and 'Luna-Resurs': science goals, payload and status, European Geosciences Union General Assembly 2014, Vienna, 27 April-02 May 2014.
113 The Hindu, "India to launch Chandrayaan-II by 2017," 10 January 2014, http://www.thehindu.com/sci-tech/science/india-to-launch-chandrayaanii-by-2017/article5562361.ece?ref=sliderNews
114 Kenichi Fujita, "An Overview of Japan's Planetary Probe Mission Planning," 9th International Planetary Probe Workshop, Toulouse, June 2012.
115 National Aeronautics and Space Administration, "ILN - International Lunar Network," 30 April 2013, http://science.nasa.gov/missions/iln/; See also: Irene Klotz, "NASA Planning for Mission To Mine Water on the Moon," 28 January 2014
116 Soo Bin Park, "South Korea reveals Moon-lander plans," Nature, 13 November 2013, http://www.nature.com/news/south-korea-reveals-moon-lander-plans-1.14159
117 Stephen Clark, "ESA lunar lander shelved ahead of budget conference," Astronomy Now, 8 November 2012, http://www.astronomynow.com/news/n1211/20moonlander/#.U0kPxVWSw_k
118 Shaoting Ji and Wen Wang, "China's space exploration goals before 2020," China Daily, http://usa.chinadaily.com.cn/china/2014-03/10/content_17336950.htm, 10 March 2014,
119 William Stewart, "Is Vlad keen on a trip? Putin eyes up cosmonaut uniform as his deputy premier sets out plans to colonise space and declares 'We are coming to the Moon FOREVER'," Daily Mail, http://www.dailymail.co.uk/news/article-2602291/We-coming-Moon-FOREVER-Russia-sets-plans-conquer-colonise-space-including-permanent-manned-moon-base.html#ixzz2yfcYJrJG
120 Srinivas Laxman, "Japan SELENE-2 Lunar Mission Planned For 2017," Asian Scientist, 16 July 2012, http://www.asianscientist.com/topnews/japan-announces-selene-2-lunar-mission-2017/
121 Express News Service, "ISRO: No Manned Mission to Moon," 1 January 2014, http://www.newindianexpress.com/states/karnataka/ISRO-No-Manned-Mission-to-Moon/2014/01/01/article1976540.ece#.U0kjN1WSw_k
122 Zhang Yuhua as quoted in Defang Kong and Qian Zhang, "Manned lunar landing under research," People's Daily Online, 8 January 2014, http://english.peopledaily.com.cn/202936/8506408.html
123 CNN, "2010 moon mission for China," 20 May 2002, http://edition.cnn.com/2002/TECH/space/05/20/china.space/index.html?_s=PM:TECH
124 Dmitry Rogozin as quoted in The Voice of Russia, "Russia plans to get a foothold in the Moon - Dmitriy Rogozin," 11 April 2014, http://voiceofrussia.com/news/2014_04_11/Russia-plans-to-get-a-foothold-in-the-Moon-Dmitriy-Rogozin-5452/
125 Richard Holdaway as quoted in David Shukman, "Why China is fixated on the Moon."
126 Kevin Pollpeter as quoted in Sarah Cruddas, "Will China have an Apollo moment?", BBC, 11 December 2013, http://www.bbc.com/future/story/20131211-will-china-have-an-apollo-moment
127 Richard Holdaway as quoted in David Shukman, "Why China is fixated on the Moon."
128 Vincent G. Sabathier, Johannes Weppler and Ashley Bander, "Costs of an International Lunar Base," Center for Strategic and International Studies, 24 September 2009.
129 Duane Byrge, "Firm Review: Moon", Hollywood Reporter, 26 January 2009, http://www.pastdeadline.com/hr/film-reviews/film-review-moon-1003934260.story
130 John Hickman, "Red Moon Rising: Could China's lunar ambitions scramble politics here on Earth?" Foreign Policy, 18 June 2012, http://www.foreignpolicy.com/articles/2012/06/18/red_moon_rising
131 John M. Logdson, "Lost in Space," Politico Magazine, 19 December 2013, http://www.politico.com/magazine/story/2013/12/china-moon-landing-us-space-race-101278.html#ixzz2ylcNGIYe
132 Everett C. Dolman, Astropolitik: Classical Geopolitics in the Space Age, Frank Cass Publishers, London and Portland, 2002, pp. 84-88.
133 John Hickman, "Still crazy after four decades: The case for withdrawing from the 1967 Outer Space Treaty," Space Review, 24 September 2007, http://www.thespacereview.com/article/960/1
134 Henry Hertzfeld, "The Moon is a Land without Sovereignty: Will it be a Business Friendly Environment?," High Frontier Journal, Vol. 3, No. 2, Spring 2007, Page 43.
135 Richard C. Cook, "Militarization and the Moon-Mars Program: Another Wrong Turn in Space?," Global Research, 22 January 2007, http://www.globalresearch.ca/militarization-and-the-moon-mars-program-another-wrong-turn-in-space/4554
136 Want China Times, "PLA dreams of turning moon into Death Star, says expert," 12 December 2013, http://www.wantchinatimes.com/news-subclass-cnt.aspx?cid=1101&MainCatID=11&id=20131203000106
137 Metro, "How the Moon could fuel World Wars," 26 May 2009, http://metro.co.uk/2009/05/26/how-the-moon-could-fuel-world-wars-149344/
138 Beijing Declaration, Global Space Development Summit, Beijing, 24 April 2008, p. 2.
139 Wilson Greatbatch "War is not the Answer, Nuclear Fusion Power with Helium 3 is the Answer," Prometheus, No. 87, Special Issue, 2003, http://www.meaus.com/greatbatch-war-not-answer.htm
140 Francis of Assisi, "Canticle of the Sun," 1225, http://www.franciscanfriarstor.com/archive/stfrancis/stf_canticle_of_the_sun.htm
141 Satish Kumar and Kopal Gupta, "Helium-3 As An Alternate Fuel Technology (for Producing Electricity)," p. 80.
142 Keith Cowing, "Is China Really Winning a Space Race with Us?," NASA Watch, 20 December 2013, http://nasawatch.com/archives/2013/12/frank-wolf-wave.html
143 Lamont Colucci, "America Must Retake Lead in Space Exploration," US News, 11 December 2012, http://www.usnews.com/opinion/blogs/world-report/2012/12/11/america-must-retake-lead-in-space-exploration
144 Jonathan Amos, "Obama cancels Moon return project," BBC, http://news.bbc.co.uk/2/hi/science/nature/8489097.stm
145 Jane Qiu, "Head of China's space science reaches out," Nature, 6 March 2014, http://www.nature.com/news/head-of-china-s-space-science-reaches-out-1.14797
146 Xu Dazhe as quoted in PTI, "China wants space collaboration with US," Economic Times, 11 January 2014, http://economictimes.indiatimes.com/articleshow/28678995.cms?utm_source=contentofinterest&utm_medium=text&utm_campaign=cppst
147 Sanford Healey, "The Future of United States-Chinese Space Relations," Proceedings of the National Conference on Undergraduate Research, University of Wisconsin-La Crosse, 11-13 April 2013, p. 342.
148 Peter Rakobowchuk, "Hadfield: The future of Canadian space exploration lies with China," Canadian Press, 28 December 2013, http://globalnews.ca/news/1052624/hadfield-the-future-of-canadian-space-exploration-lies-with-china/
149 Leonard David, "China Invites Foreign Astronauts to Fly On Future Space Station, Space.com, 28 September 2013, http://www.space.com/22984-china-space-station-foreign-astronauts.html
150 Chris Hadfield as quoted in Peter Rakobowchuk, "Hadfield: The future of Canadian space exploration lies with China."
151 Beijing Declaration, p. 2.
152 Vincent G. Sabathier, Johannes Weppler and Ashley Bander, "Costs of an International Lunar Base."
153 Richard Bilder, "A Legal Regime for the Mining of Helium-3 on the Moon: U.S. Policy Options," Fordham International Law Journal, pp. 289-299.
Opinions, Dreams & Videos
Dim light is cast by the dragon-head-shaped wall lights, the pulse of electro shakes the entire space, comfy sofas divide the room into different nooks and crannies for people to drink in, pink nylon and muslin hang from the ceiling to the floor, prints of hundreds of bored faces are faintly discernible upon it. It could only be the hottest spot in Beijing this weekend.
Every three months a new nightclub appears in Beijing, and everybody trips over themselves to go there. The nightclub will normally be in a hutong, a dilapidated courtyard style house or a factory that's about to be demolished. The same people every time scurry along to explore the new bar, they spout their cigarette smoke while telling you in lofty tones how the music in this new place is cool. After three months have passed, if it's not that the style of the music has changed, or that the building which houses the club has suddenly been demolished by the city government, then it's that it loses popularity for no particular reason whatsoever. Another bar opens, it's also housed in an old factory, a hutong, or a traditional courtyard style house, wherever it may be, it always sounds incredibly cool.
Everyone vies with one another to be the first to spread the news. Then, at the new bar you meet the same familiar faces who recommended the old bar to you so enthusiastically.
When someone mentions the old bar, it's as if they're talking about a has-been celebrity. It's so passé, they say. I don't even know why it was so popular in the first place, it's only logical that it's become as out of fashion as it should have been in the first place.
It's Friday night at 2am at the hottest bar of this couple of months, situated in the Sanlitun area. She has drunk quite a lot, but she's still quite sober. She came with a friend who had a song twenty years ago which was popular throughout the whole of Beijing but who never followed it up with any other songs, when meeting a stranger he would always say "I'm so-and-so, do you want to buy me a drink?'. She would stand next to her friend, then not long after that she would ditch him, and sit down next to an immaculately dressed foreigner.
She wants to shoot a documentary. It's only a remote dream, remoter still in China. She is a single girl from Sichuan, without any money, without work and without connections. She only has herself. She tries to write during the day, but as the evening draws near, her literary talents are not sufficient to resist the tide of loneliness, she recruits a few friends to go drinking with her. Her lips press closely to the foreigner's ears as she whispers to him, what should I do, tell me, what should I do. I want to shoot a documentary, but I don't have anything.
There are countless young girls just like her in Beijing. From every corner of the country they come, to study, or in search of career opportunities. Their hometown is far behind them, their imagination of themselves is the most important luggage they carry. They are young but they grow up quickly, they have a strong sexual appetite, and white jade skin, they have a baffled lost expression and a naive, homely smile. In the bar, they thirst for the kindness of strangers as flowers thirst for the rain, they'll snuggle up to any stranger who is willing to listen to their dreams. Because only outsiders are willing to take her seriously. During the day, she walks around this city of hers, that is at the same time not her own, her black haired and yellow-skinned compatriots would think at most that she was an unrealistic country girl, not willing to work despite having no money and without any professional skills, who can't even find a man to marry her. Her so-called "artistic ambitions", are nothing but an excuse for her lethargy, something she uses to fool foreigners at bars. In the end all she wants is to marry a glassy eyed, white-skinned foreigner, allowing her to escape to distant climes.
Louis Aragon, a French poet who was part of the Resistance during World War II, once said, "L'avenir de l'homme, c'est la femme" (the future of man is woman), here 'man' can be understood to mean the more general idea of 'humanity'. When society develops to its pinnacle, it will be along the road of effeminization. The status of women and the rights they are able to acquire in any society have always been the benchmark of civilization. The more esteemed the status of women and the greater the extent to which they are held as the equal of man or his superior, the more advanced a society is held to be. This is because the evolution of civilization is actually the process of society’s effeminization. Characteristics traditionally attributed to women, like peace-keeping, compromise, equality, selflessness, the ability to listen, forgiveness, concern for the education of the next generation, respect for etiquette and a love of the arts, are all particular to developed societies; on the other hand, the characteristics traditionally attributed to men carve out an image of a more primitive society, such as bellicosity, conquest, violence, ego-centrism, factionalism. Men brag about being the innovative force of progress, however, it is the care and prudence of women that stabilize a society, and articulate its cultural basis. Effeminization is equivalent to advanced civilization, it represents a maturity in both the material and spiritual realms. In an age when India has many female MPs and female business leaders, in China female CEOs and female officials are still few and far between. The rate of suicide for Chinese women is still the highest in the world.
She also came here for the music. She says this as her practiced hand unbuttons the foreign man's shirt. The guy buttons it back up. She leans close to his body and says something else. The music is too loud, no-one else hears what she says, but they see the foreigner suddenly blush. The buttons are undone again. Then buttoned back up again. Opened. Buttoned. The fourth time it happens the guy relinquishes the struggle.
It's three in the morning now, everyone is getting up to go home. As my taxi turns from the small alley on to the main road, I catch a glimpse of her locked in an embrace with the foreigner underneath a towering poplar tree.
Her face obscured in the darkness of the night.
Focus: Women and Nationalism
Anyone approaching the Lama Temple from the nearby subway station will be struck by the number of stores selling impressively large packets of incense, not to mention the hawkers prowling around the subway exit, ever ready to pounce on potential worshippers and try to offload a packet of incense or two.
Indeed, Yonghegong Street and the surrounding hutongs (alleys) are not only filled with incense vendors, but a whole range of stores selling statues, prayer beads, Tibetan religious curios and items of worship (My favourite was a solar powered prayer wheel). There are also a few vegetarian restaurants in the area. Add to this a large number of Daoist fortune tellers and geomancers and the neighbourhood has a strongly Chinese religious appearance.
I was then quite surprised to come across 智慧之光 or ‘Wisdom Light – the New Age Shop’, a mere 100 or so metres south of the Lama Temple and nestled next to a vendor of Taiwanese tea. To anyone who has perused the advertisements in a Western New Age magazine or attended some sort of New Age ‘gathering’, this location might make perfect sense – “Fengshui and astrology – *tick*. Tibetan artefacts – *tick*. New Age trinkets and tchotchkes – *tick*”. But I was not walking down the main street of a hippie town on the East Coast of Australia or one of Canada’s Gulf Islands. I was in Beijing. A place that in recent decades has seen little of the type of religious experimentation and social conditions that spawned the West’s now nebulous and pervasive New Age movement.
While it is tricky trying to define the New Age movement (NAM) as a religion, it is certainly influenced by religious thought. The NAM is a loose collection of ideas and philosophies – often contradictory – with the general intention being to engender personal or societal change. Lorne L. Dawson wrote that the NAM often utilises “processes of self-discovery that have either been invented or recovered from numerous traditional and usually pre-modern or marginalized groups of the world”. How such a group would fit into the rigidly defined Chinese religious landscape (with state-sanctioned religious groups limited to Buddhist, Daoist, Islamic, Protestant and Catholic) is not clear. It would not be inconceivable for a New Age group elsewhere to include aspects of two or more of these five groups, not to mention influences from Chinese and Tibetan religiosity. This ‘recycling’ of spirituality – the NAM in the West takes a Chinese idea and reconfigures it to be suitable for Western audiences and now attempts to market this back in China – is fascinating. In discussing the potential of the NAM in Asia, Lee writes that individuals seeking to give meaning to their sense of being may “turn to enchanted traditions as a form of resistance to state attempts in enforcing the processes of disenchantment”. Such a state of affairs could be possible in China, where the Communist party continues to reign supreme and oversee a rapid modernisation of society. Of course, with China being the vast place that it is, not all areas are modernising at the same rate and not everyone has the same opportunity to engage in some form of spiritual practice.
The nascent NAM in China most likely began through contacts with Hong Kong and Taiwan, often through businessman assigned to Chinese posts. The NAM really began to develop in Taiwan after Martial Law was lifted in 1987. Significantly, all the printed material in ‘Wisdom Light’ was published in traditional Chinese (the script used in Hong Kong and Taiwan) rather than simplified Chinese (as used in mainland China). Photocopies of books were also available for sale. I was told that the books were primarily printed in Taiwan. Returning to the store one day, I spied some new flyers advertising Reiki courses in Hong Kong, left earlier in the day by a Reiki representative.
Besides literature, the store offered an eclectic range of products and services - bell chimes, angels, pyramids, crystal singing bowls, herbs, Native American dreamcatchers, DVDs, CDs and aura photography. The shop’s staff were not too sure about their boss’ New Age background or credentials, but did know that he owned another business. Compared to the other shops on Yonghegong St, ‘Wisdom Light’ was not too busy. However, perhaps the boss has recognized a niche market. As long as China’s middle classes continue to grow and relative religious freedom remains, the New Age has the potential to be quite profitable. China’s moneyed class just needs to be convinced to buy the crystal singing bowl from ‘Wisdom Light’ instead of a copper one from the Tibetan merchant across the road, even though it might be several times more expensive. At this stage, ‘Wisdom Light’ only sells products, not having yet expanded to offer courses.
One could ask, is the NAM suitable for China? The experience in Taiwan and Hong Kong, similar cultures to that of China, suggests so. In Taiwan one can purchase a wide range of New Age books at the most mainstream of outlets. But if we shift the focus back to Yonghegong Street, then perhaps we might reconsider the NAM’s short term prospects in China.
China’s thawing religious landscape offers hints. Ten years ago Yonghegong Street might well have looked considerably different. It was only in 2002 that the Beijing Religious Regulations were amended to allow fortune tellers and palm readers to be considered as ‘cultural heritage’, rather than feudal superstition. While these businesses are now ubiquitous, it was not that long ago, certainly during the Cultural Revolution from 1966-1976, that they would have been more difficult to find. Now packaged as ‘cultural heritage’, palmistry and the like might not seem so alien to the average Chinese citizen. And it is making this cultural connection that foreign religious groups in China must do. As long as something is seen as alien, its relevance will be questioned and acceptance will be slow, if at all. Christian and Catholic missionaries in China have long recognized this. The NAM is no different. To take hold in China, the new ideas that the NAM encompasses and how entrepreneurs promulagate them will have to be adapted to Chinese society. Translating some of the available texts into simplified Chinese might be a good start.
 Lorne L. Dawson. Comprehending Cults: The Sociology of New Religious Movements. Oxford University Press. Toronto. 1998. Page 191.
 Lee, Raymond L. M., The reenchantment of the self, Journal of Contemporary Religion, 18:3, 351-367, 2003.
 Chen, Shu-Chuan and Beckford, James A., Parallel glocalization: the New Age in Taiwan, page 3 (available online)
 Chan, Kim-Kwok and Carlson, Eric R., Religious Freedom in China, Institute for the Study of American Religion, Santa Barbara, 2005, 15.
Focus: Snapshots of Religious Innovation in Asia
Mercantilism or Tributarism?
The United States often summarize their criticisms against the Chinese strategy by using the term "mercantilism". A passage of the revised National Security Strategy in April 2006, says:
"(Chinese leaders) are expanding trade but acting as if they can somehow "lock up" energy supplies around the world or seek to direct markets rather than opening them up - as if they can follow a Mercantilism borrowed from a discredited era ... "
The word mercantilism is highly controversial and for a long time, well expressed the frustration of American leaders in front the accumulation of trade surpluses by China. However, the American Treasury itself always stopped short of accusing the Chinese authorities of "manipulation" of their currency but spoke simply of the "misalignment" of the Renminbi (RMB). The expression was to implicitly assign international financial organizations the heavy task to convince the Chinese authorities in accepting a regime of flexible change.
An entirely different way of looking at China’s international policy towards developing countries has been one provided by the "Tributarism" paradigm. China sometimes knows how to use the political asset that a trade deficit can constitute: with most neighboring countries and African countries that China wants to attract into its sphere of influence, China develops favorable commercial trends in exchange for political allegiance. Already, during the Ming and Qing dynasties, the Chinese emperor would give more favors to tributary states or kingdoms than he received from them; for this generosity, the emperor obtained their respect and goodwill. Indeed, it is clear that China carefully differentiates its commercial strategy according to the political areas it deals with, following strategic considerations.
Shaping a New Consensus
Recent political and economic developments have weakened both the Washington and Beijing consensus. The Washington consensus has been broken by the excesses of extreme liberalism. The Beijing consensus now suffers from the international outcry on some aspects of China’s African policy (Darfur), backlash against Chinese interests in some African countries, and the weakening of China’s position along with the worsening global crisis.
The Time of a "Global Consensus" Partnership between China, Europe, India, the United States and Africa should help this continent to achieve the right balance between economic development and political reform. This cannot be done in the same way in all countries. Africa, on the long run, does not gain anything in being the battlefield where the great Powers confront their strategies. Rather than making Americans, Europeans and Chinese compete among themselves for a slice of African’s resources, leaders of this continent should call for a "Global Consensus for Africa" in which all partners would cooperate in making Africa a showcase of sustainable and peaceful development. Will the current crisis teach us at last some common sense, in showing the global community that cooperation serves everyone’s interests much better than strategic competition?
China, the Region and the World 中國與國際舞台
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