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Nuclear warheads

Martin Hellman is a professor at Stanford, one of the co-inventors of public-key cryptography, and the creator of NuclearRisks.org. He has recently published an excellent essay about the risks of failure of nuclear deterrence: Soaring, Cryptography and Nuclear Weapons. (also available on PDF)

I highly recommend that you read it, along with the other resources on NuclearRisks.org, and also subscribe to their newsletter (on the left on the frontpage).

There are also chapters on Nuclear War and Nuclear Terrorism in Global Catastrophic Risks (intro freely available as PDF here).

Update: Here’s a Martin Hellman quote from a piece he wrote called Work on Technology, War & Peace:

You have a right to know the risk of locating a nuclear power plant near your home and to object if you feel that risk is too high. Similarly, you should have a right to know know the risk of relying on nuclear weapons for our national security and to object if you feel that risk is too high. But almost no effort has gone into estimating that risk. To remedy that lack of information, this effort urgently calls for in-depth studies of the risk associated with nuclear deterrence.

While this new project may seem to have a much more modest goal than Beyond War, there is tremendous hidden potential: My preliminary analysis indicates that the risk from relying on nuclear weapons is thousands of times greater than is prudent. If the results of the proposed studies are anywhere near my preliminary estimate, those studies then become merely the first step in a long-term process of risk reduction. Because many later steps in that process seem impossible from our current vantage point, it is better to leave them to be discovered as the process unfolds, thereby removing objections that the effort is not rooted in reality.

I wrote an essay on the theme of the possibility of artificial initiation and fusion explosion of giants planets and other objects of Solar system. It is not a scientific article, but an atempt to collect all nesessary information about this existential risk. I conclude that it could not be ruled out as technical possibility, and could be made later as act of space war, which could clean entire Solar system.

Where are some events which are very improbable, but which consequence could be infinitely large (e.g. black holes on LHC.) Possibility of nuclear ignition of self-containing fusion reaction in giant planets like Jupiter and Saturn which could lead to the explosion of the planet, is one of them.

Inside the giant planets is thermonuclear fuel under high pressure and at high density. This density for certain substances is above (except water, perhaps) than the density of these substances on Earth. Large quantities of the substance would not have fly away from reaction zone long enough for large energy relize. This fuel has never been involved in fusion reactions, and it remained easy combustible components, namely, deuterium, helium-3 and lithium, which have burned at all in the stars. In addition, the subsoil giant planets contain fuel for reactions, which may prompt an explosive fire — namely, the tri-helium reaction (3 He 4 = C12) and for reactions to the accession of hydrogen to oxygen, which, however, required to start them much higher temperature. Substance in the bowels of the giant planets is a degenerate form of a metal sea, just as the substance of white dwarfs, which regularly takes place explosive thermonuclear burning in the form of helium flashes and the flashes of the first type of supernova.
The more opaque is environment, the greater are the chances for the reaction to it, as well as less scattering, but in the bowels of the giant planets there are many impurities and can be expected to lower transparency. Gravitational differentiation and chemical reactions can lead to the allocation of areas within the planet that is more suitable to run the reaction in its initial stages.

The stronger will be an explosion of fuse, the greater will be amount of the initial field of burning, and the more likely that the response would be self-sustaining, as the energy loss will be smaller and the number of reaction substances and reaction times greater. It can be assumed that if at sufficiently powerful fuse the reaction will became self-sustaining.

Recently Galileo spacecraft was drawn in the Jupiter. Galileo has nuclear pellets with plutonium-238 which under some assumption could undergo chain reaction and lead to nuclear explosion. It is interesting to understand if it could lead to the explosion of giant planet. Spacecraft Cassini may soon enter Saturn with unknown consequences. In the future deliberate ignition of giant planet may become a mean of space war. Such event could sterilize entire Solar system.

Scientific basis for our study could be found in the article “Necessary conditions for the initiation and propagation of nuclear detonation waves in plane atmospheras”.
Tomas Weaver and A. Wood, Physical review 20 – 1 Jule 1979,
http://www.lhcdefense.org/pdf/LHC%20-%20Sancho%20v.%20Doe%20-%20Atmosphere%20Ignition%20-%202%20-%20Wood_AtmIgnition-1.pdf

It rejected the possibility of extending the thermonuclear detonation in the Earth’s atmosphere in Earth’s oceans to balance the loss of radiation (one that does not exclude the possibility of reactions, which take little space comparing the amount of earthly matter — but it’s enough to disastrous consequences and human extinction.)

There it is said: “We, therefore, conclude that thermonuclear-detonation waves cannot propagate in the terrestrial ocean by any mechanism by an astronomically large margin.

It is worth noting, in conclusion, that the susceptability to thermonuclear detonation of a large body of hydrogenous material is an ex¬ceedingly sensitive function of its isotopic com¬position, and, specifically, to the deuterium atom fraction, as is implicit in the discussion just preceding. If, for instance, the terrestrial oceans contained deuterium at any atom fraction greater than 1:300 (instead of the actual value of 1: 6000), the ocean could propagate an equilibrium thermonuclear-detonation wave at a temperature £2 keV (although a fantastic 10**30 ergs—2 x 10**7 MT, or the total amount of solar energy incident on the Earth for a two-week period—would be required to initiate such a detonation at a deuter¬*ium concentration of 1: 300). Now a non-neg-ligible fraction of the matter in our own galaxy exists at temperatures much less than 300 °K, i.e., the gas-giant planets of our stellar system, nebulas, etc. Furthermore, it is well known that thermodynamically-governed isotopic fractionation ever more strongly favors higher relative concentration of deuterium as the temperature decreases, e.g., the D:H concentration ratio in the ~10**2 К Great Nebula in Orion is about 1:200.45 Finally, orbital velocities of matter about the galactic center of mass are of the order of 3 x 10**7 cm /sec at our distance from the galactic core.

It is thus quite conceivable that hydrogenous matter (e.go, CH4, NH3, H2O, or just H2) relatively rich in deuterium (1 at. %) could accumulate at its normal, zero-pressure density in substantial thicknesses or planetary surfaces, and such layering might even be a fairly common feature of the colder, gas-giant planets. If thereby highly enriched in deuterium (£10 at. %), thermonuclear detonation of such layers could be initiated artificially with attainable nuclear explosives. Even with deuterium atom fractions approaching 0.3 at. % (less than that observed over multiparsec scales in Orion), however, such layers might be initiated into propagating thermonuclear detonation by the impact of large (diam 10**2 m), ultra-high velocity (^Зх 10**7 cm/sec) meteors or comets originating from nearer the galactic center. Such events, though exceedingly rare, would be spectacularly visible on distance scales of many parsecs.”

Full text of my essay is here: http://www.scribd.com/doc/8299748/Giant-planets-ignition

November 14, 2008
Computer History Museum, Mountain View, CA

http://ieet.org/index.php/IEET/eventinfo/ieet20081114/

Organized by: Institute for Ethics and Emerging Technologies, the Center for Responsible Nanotechnology and the Lifeboat Foundation

A day-long seminar on threats to the future of humanity, natural and man-made, and the pro-active steps we can take to reduce these risks and build a more resilient civilization. Seminar participants are strongly encouraged to pre-order and review the Global Catastrophic Risks volume edited by Nick Bostrom and Milan Cirkovic, and contributed to by some of the faculty for this seminar.

This seminar will precede the futurist mega-gathering Convergence 08, November 15–16 at the same venue, which is co-sponsored by the IEET, Humanity Plus (World Transhumanist Association), the Singularity Institute for Artificial Intelligence, the Immortality Institute, the Foresight Institute, the Long Now Foundation, the Methuselah Foundation, the Millenium Project, Reason Foundation and the Accelerating Studies Foundation.

SEMINAR FACULTY

  • Nick Bostrom Ph.D., Director, Future of Humanity Institute, Oxford University
  • Jamais Cascio, research affiliate, Institute for the Future
  • James J. Hughes Ph.D., Exec. Director, Institute for Ethics and Emerging Technologies
  • Mike Treder, Executive Director, Center for Responsible Nanotechnology
  • Eliezer Yudkowsky, Research Associate. Singularity Institute for Artificial Intelligence
  • William Potter Ph.D., Director, James Martin Center for Nonproliferation Studies

REGISTRATION:
Before Nov 1: $100
After Nov 1 and at the door: $150

1. Language and cultural isolation lead to the situation then Russian researches are not known in West and vice versa. I spent a lot of time translating into Russian and promoting works of Bostrom, Yudkowsky, Circovic, D.Brin, Freitas, A.Kent and other writers on global risks. Here I would like to tell you about some Russian researchers. Though I can’t prove validity of their ideas I think they should be checked internationally in order to roll out them or to take preventive measures. A. V. Karnauhov created a theory of “green house” catastrophe. He shows that climate is non linear system this many positive feedbacks and one of them is often missed – it is that water vapor is also greenhouse gas and growing temperatures would lead to injection of more and more water vapor into atmosphere. Also current level of carbon dioxid should lead to much more temperature increase, but inertia of ocean temperature makes current temperature smaller. But ocean temperature will rise, especially in Arctic, where large amounts of methane stored under seebed on the low shallow waters. This would lead to clarhat gun explosion of metane. Cumulative effect of water vapor, CO2, Metane and surmounting of ocean inertia will lead to very quick exponential global warming, which could have devastating effects as early as in 2020th and make global temperature higher not on 6 degrees but on several tens to the end of the century – which would mean human extinction, and after 200 years all life extinction on Earth Some his ideas you could see in the article: http://www.poteplenie.ru/doc/role.pdf Karnaukhov A.V. Role of the biosphere in the formation of the Earth’s Climate: The Greenhouse Catastrophe, Biophysics, Vol.46, No 6, 2001, pp. 1078-1088. Also I should mention works of Drobishevsky “Danger of the explosion of Callisto and the priority of space missions” http://www.springerlink.com/content/584mw0407824nt72/ He thinks that Jovian satellite Callisto could soon explode because of H and O reaction in its ice. Such explosion will lead to bombardment of the earth by comets and “nuclear winter” for 60 years. He suggested to send there a space mission. But I wrote him that, if he is write, it is very dangerous to send where mission, because it could trigger the explosion by drilling the ice crust. And the last man, about whom I would like to tell you, is a reviewer of my book “the Structure of the global catastrophe” Aranowich, who told me by way that his group has created much more effective way to penetrate the earth crust the Stevenson’s probe. Stevenson’s probe require 10 million ton of melted iron. His probe will weight only 10 tons and will use an energy of radioactive decay. It could reach 1000 km depth by one month – and the main danger is creation of supervolcano. Then I asked him, was any safety analysis done – he said not. But this is only theoretical work and no practical realization is planned.
2. I have wrote a book “The structure of global catastrophe” which aim was to investigate how different scenarios of global risks could interact in time, because all of them could realize in the XXI century. This book is sponsored by Russian Transhumanist movemet. Nick Bostrom wrote short preface to it. The book is mostly ready, but some editorial and organizational problems still persists. I hope it will be published by the end of the year.
3. I am started to translate this book into English. I have translated it by computer and then edit the result – now I am on the page 27 of 390. I need someone with native English who could help me to edit this translation. The book is here: http://avturchin.narod.ru/sgkengl2.doc I hope to finish English translation (in readable, but not high literature quality:) of the book until winter.
4. The shorter version of this book is already published on the name “War and 25 other scenarios of the End of the world”. This name was suggested by editorial house, the original name was: “Gnoseology of catastrophes”. The main idea of the book is that our inability to predict the future is equal to the end of the world.
5. I have translated the most part of Lifeboat site on Russian and I expect it will appear in the Net soon.
6. I have wrote several articles on the theme of global catastrophe: “Is SETI dangerous? English translation — http://www.proza.ru/texts/2008/04/12/55.html, “Atrophic principle and natural catastrophes” http://www.proza.ru/texts/2007/04/12-13.html and “About possibilities of manmade ignition of giant planets and other objects of Solar system” http://www.proza.ru/texts/2008/07/19/466.html which are in Russian.
7. I have created “Global catastrophic risks and human extinction library” there you could find many interesting literature on English and Russian. http://avturchin.narod.ru/Global.htm
8. I think that it is provable that if humanity will unite, it will have a chance to resist global risks, but if it will be divided on military competing parts, it almost doomed. Resent events on Caucasus put again in agenda the question of New cold war. Here we should ask what is the worst outcome of possible Cold war? Common answer is that Nuclear war is that worst outcome. But Nuclear war will not terminate all human population in most realistic scenarios. Much worse outcome is, I think, new arm race, which could lead to quick creation of much more destructive weapons, than nuclear. And the worst outcome of arm race is creation of Doomsday machine. Doomsday machine (DM) is ultimate defense weaponry. The example of such strategy was depicted by Kubrick in his genius movie “Dr. Strangelove”. Here we should say that DM-strategy is more suitable for a weaker state, which is in danger of aggression (or feels so). Quality of Russian nuclear forces is continue to deteriorating and minimum is expected around the year 2010 then most of old soviets rockets should be out of order. Simultaneously after the year 2010 US will rich a peak of their supremacy (because of thousand non nuclear cruise missiles, unique GPS system and antimissile shield it will have ability to make first strike without answer.), but later could lose supremacy because of economic crisis in US and growing arsenal of new Russian missiles. This situation looks dangerous, because from chess we know the principle: “Someone must attack under threat of losing his supremacy”. And antiballistic missile shield (ABM), which is developing now by NATO is very dangerous because it makes direct way to the creation of Doomsday Machine. Before ABM rockets were good as a mean of defense. But now only large underground bomb (gigaton order and with cobalt shield) could be a strategic defense. Such ideas is not only my creation but they are circulating in the air. Of course nobody is going to actually use such weapon, but it could be lunched accidentally. It should not be nuclear – it could be also large stockpile of anthrax, manmade supervulcano-threat or something more sophisticated. DM also could be used as a offensive mean. If Osama get it, he could say: everybody should convert in Islam, or I detonate it. The really big problem arise if in answer someone Catholic say: if anyone convert in Islam I will detonate my own Doomsday machine. In this case we finally doomed. But worst case scenarios are low probability ones, so I hope we have a chance to unite.

Cross posted from Nextbigfuture

Click for larger image

I had previously looked at making two large concrete or nanomaterial monolithic or geodesic domes over cities which could protect a city from nuclear bombs.

Now Alexander Bolonkin has come up with a cheaper, technological easy and more practical approach with thin film inflatable domes. It not only would provide protection form nuclear devices it could be used to place high communication devices, windmill power and a lot of other money generating uses. The film mass covered of 1 km**2 of ground area is M1 = 2×10**6 mc = 600 tons/km**2 and film cost is $60,000/km**2.
The area of big city diameter 20 km is 314 km**2. Area of semi-spherical dome is 628 km2. The cost of Dome cover is 62.8 millions $US. We can take less the overpressure (p = 0.001atm) and decrease the cover cost in 5 – 7 times. The total cost of installation is about 30–90 million $US. Not only is it only about $153 million to protect a city it is cheaper than a geosynchronous satellite for high speed communications. Alexander Bolonkin’s website

The author suggests a cheap closed AB-Dome which protects the densely populated cities from nuclear, chemical, biological weapon (bombs) delivered by warheads, strategic missiles, rockets, and various incarnations of aviation technology. The offered AB-Dome is also very useful in peacetime because it shields a city from exterior weather and creates a fine climate within the ABDome. The hemispherical AB-Dome is the inflatable, thin transparent film, located at altitude up to as much as 15 km, which converts the city into a closed-loop system. The film may be armored the stones which destroy the rockets and nuclear warhead. AB-Dome protects the city in case the World nuclear war and total poisoning the Earth’s atmosphere by radioactive fallout (gases and dust). Construction of the AB-Dome is easy; the enclosure’s film is spread upon the ground, the air pump is turned on, and the cover rises to its planned altitude and supported by a small air overpressure. The offered method is cheaper by thousand times than protection of city by current antirocket systems. The AB-Dome may be also used (height up to 15 and more kilometers) for TV, communication, telescope, long distance location, tourism, high placed windmills (energy), illumination and entertainments. The author developed theory of AB-Dome, made estimation, computation and computed a typical project.

His idea is a thin dome covering a city with that is a very transparent film 2 (Fig.1). The film has thickness 0.05 – 0.3 mm. One is located at high altitude (5 — 20 km). The film is supported at this altitude by a small additional air pressure produced by ground ventilators. That is connected to Earth’s ground by managed cables 3. The film may have a controlled transparency option. The system can have the second lower film 6 with controlled reflectivity, a further option.

The offered protection defends in the following way. The smallest space warhead has a
minimum cross-section area 1 m2 and a huge speed 3 – 5 km/s. The warhead gets a blow and overload from film (mass about 0.5 kg). This overload is 500 – 1500g and destroys the warhead (see computation below). Warhead also gets an overpowering blow from 2 −5 (every mass is 0.5 — 1 kg) of the strong stones. Relative (about warhead) kinetic energy of every stone is about 8 millions of Joules! (It is in 2–3 more than energy of 1 kg explosive!). The film destroys the high speed warhead (aircraft, bomber, wing missile) especially if the film will be armored by stone.

Our dome cover (film) has 2 layers: top transparant layer 2, located at a maximum altitude (up 5 −20 km), and lower transparant layer 4 having control reflectivity, located at altitude of 1–3 km (option). Upper transparant cover has thickness about 0.05 – 0.3 mm and supports the protection strong stones (rebbles) 8. The stones have a mass 0.2 – 1 kg and locate the step about 0.5 m.

If we want to control temperature in city, the top film must have some layers: transparant dielectric layer, conducting layer (about 1 — 3 microns), liquid crystal layer (about 10 — 100 microns), conducting layer (for example, SnO2), and transparant dielectric layer. Common thickness is 0.05 — 0.5 mm. Control voltage is 5 — 10 V. This film may be produced by industry relatively cheaply.

If some level of light control is needed materials can be incorporated to control transparency. Also, some transparent solar cells can be used to gather wide area solar power.


As you see the 10 kt bomb exploded at altitude 10 km decreases the air blast effect about in 1000
times and thermal radiation effect without the second cover film in 500 times, with the second reflected film about 5000 times. The hydrogen 100kt bomb exploded at altitude 10 km decreases the air blast effect about in 10 times and thermal radiation effect without the second cover film in 20 times, with the second reflected film about 200 times. Only power 1000kt thermonuclear (hydrogen) bomb can damage city. But this damage will be in 10 times less from air blast and in 10 times less from thermal radiation. If the film located at altitude 15 km, the
damage will be in 85 times less from the air blast and in 65 times less from the thermal radiation.
For protection from super thermonuclear (hydrogen) bomb we need in higher dome altitudes (20−30 km and more). We can cover by AB-Dome the important large region and full country.

Because the Dome is light weight it could be to stay in place even with very large holes. Multiple shells of domes could still be made for more protection.

Better climate inside a dome can make for more productive farming.

AB-Dome is cheaper in hundreds times then current anti-rocket systems.
2. AB-Dome does not need in high technology and can build by poor country.
3. It is easy for building.
4. Dome is used in peacetime; it creates the fine climate (weather) into Dome.
5. AB-Dome protects from nuclear, chemical, biological weapon.
6. Dome produces the autonomous existence of the city population after total World nuclear war
and total confinement (infection) all planet and its atmosphere.
7. Dome may be used for high region TV, for communication, for long distance locator, for
astronomy (telescope).
8. Dome may be used for high altitude tourism.
9. Dome may be used for the high altitude windmills (getting of cheap renewable wind energy).
10. Dome may be used for a night illumination and entertainment

The Defense Advanced Research Projects Agency (DARPA) gave a $540,000 grant to researchers from Rice University to do a fast-tracked 9-month study on a new anti-radiation drug based on carbon nanotubes:

“More than half of those who suffer acute radiation injury die within 30 days, not from the initial radioactive particles themselves but from the devastation they cause in the immune system, the gastrointestinal tract and other parts of the body,” said James Tour, Rice’s Chao Professor of Chemistry, director of Rice’s Carbon Nanotechnology Laboratory (CNL) and principal investigator on the grant. “Ideally, we’d like to develop a drug that can be administered within 12 hours of exposure and prevent deaths from what are currently fatal exposure doses of ionizing radiation.” […]

The new study was commissioned after preliminary tests found the drug was greater than 5,000 times more effective at reducing the effects of acute radiation injury than the most effective drugs currently available. […]

The drug is based on single-walled carbon nanotubes, hollow cylinders of pure carbon that are about as wide as a strand of DNA. To form NTH, Rice scientists coat nanotubes with two common food preservatives — the antioxidant compounds butylated hydroxyanisole (BHA) and butylated hydroxytoluene (BHT) — and derivatives of those compounds.

An interesting side benefit of the drug might be that it could also potentially help cancer patients who are undergoing radiation treatment.

More here: Feds fund study of drug that may prevent radiation injury

PhysOrg.com is reporting that researchers at Purdue University are working to develop a system that would use a network of cell phones to track radiation in an effort to prevent terrorist attacks with dirty bombs or nuclear weapons. Tiny solid-state radiation sensors are already commercially available and the additional circuitry would not add significant bulk to portable electronic products.

The researchers tested the system and demonstrated that it is capable of detecting a weak radiation source 15 feet from the sensors. A fully developed system could cover a nation with millions of cell phones equipped with radiation sensors able to detect even light residues of radioactive material. Because cell phones already contain global positioning locators, the network of phones would serve as a large scale tracking system that would require no intervention from individual users.

University of Pittsburgh researchers injected a therapy previously found to protect cells from radiation damage into the bone marrow of mice, then dosed them with some 950 roentgens of radiation — nearly twice the amount needed to kill a person in just five hours. Nine in 10 of the therapy-receiving mice survived, compared to 58 percent of the control group.

Between 30 and 330 days, there were no differences in survival rates between experiment and control group mice, indicating that systemic MnSOD-PL treatment was not harmful to survival.

The researchers will need to verify whether this treatment would work in humans.

This is part of the early development in the use of genetic modification to increase the biological defences (shields) of people against nuclear, biological and chemical threats. We may not be able to prevent all attacks, so we should improve our toughness and survivability. We should still try to stop the attacks and create the conditions for less attacks.

Increasingly, tools readily available on the Internet enable independent specialists or even members of the general public to do intelligence work that used to be the monopoly of agencies like the CIA, KGB, or MI6. Playing the role of an armchair James Bond, Hans K. Kristensen, a nuclear weapons specialist at the Federation of American Scientists (FAS) in Washington, D.C., recently drew attention to images on Google Earth of Chinese sites. Kristensen believes that the pictures shed light on China’s deployment of its second-generation of nuclear weapons systems: one appears to be a new ballistic missile submarine [see above image]; others may capture the replacement of liquid-fueled rockets with solid-fuel rockets at sites in north-central China, within range of ICBM fields in southern Russia.

Source: IEEE Spectrum. An excellent example of how open source intelligence outsmart military intelligence.

See also: Nuclear terrorism: the new day after from the Bulletin of Atomic Scientists. From the article:

Finally, there is the question of whether the U.S. government would behave with rational restraint. This, of course, assumes that there is a government. A terrorist nuclear attack on Washington could easily kill the president, vice president, much of Congress and the Supreme Court. But in a July 12 Washington Post op-ed, Norman Ornstein revealed that the federal government has refused to make contingency plans for its own nuclear decapitation, which means that U.S. nuclear weapons could be in the hands of small, enraged launch control teams with no clear line of authority above them. Assuming that the federal government was still there, however, we can only imagine (using the reaction to the loss of a mere two buildings on 9/11 as a metric of comparison) the public rage at the loss of a city and the intense, perhaps irresistible, pressure on the president to make someone, somewhere pay for this atrocity.

The US-led effort to expand the military BMEWS (ballistic missile early warning radar system) to Poland and the Czech Republic provoke Russian military strategists. Putin has proposed using their already operative radar base in Azerbajian (See “Azeri radar eyed for US shield”, BBC) in exchange for information from the US system. The US/NATO proposed TMD (theater missile defense) will also integrate early warning systems for short-range missiles in southern Europe. Is the race for space awareness and the weaponization of space inevitable?

The justification for the missile shield is the potential threat of long range missiles from Iran and North Korea (See “N-Korea test fires missile”, BBC). Military experts predict that with the current progress of nuclear research and missile technology available to Iran they will pose a threat to the US in 2015. NATO and Russia co-operate in certain military matters through the Russia-Nato Council but has increasingly been in conflict over the Iranian nuclear program and the European missile shield. (See “Russia-NATO: A marriage of convenience”, RIA Novosti). Russia has also demonstrated the ineffectiveness of the missile shield by launching their RS-24 multiple missile system carrying 10 warheads (See “RS-24 Missiles to replace old systems within next few years”, Interfax).

Terrestrial radars need to be complemented by satellites to keep track of missile launches across the planet (so called “boost phase interceptors”, see “Missile defense, satellites and politics”, The Space Review) to ensure complete space awareness. The Chinese Space Agency tested an anti-satellite missile earlier this year (See “Pentagon says China’s anti-satellite test posed a threat to nations”, AP). The move towards a hot space war could be imminent. The official press release was the only information given from Chinese authorities. The secrecy surrounding space capabilities was recently challenged by French authorities when they discovered 20–30 unregistered US surveillance satellites. (See “French says ‘non’ to U.S. Disclosure of Secret Satellites”, Space.com).

The race for the control of space is threatening to destabilize established military power structures. Secrecy is not the way of solving imbalances in international relations. Space is a part of the “commons” and should be dealt with accordingly. I propose an open source approach to the space awareness problematique. There are several approaches to distributed space awareness, e.g. launching private satellites for surveillance and distribution of real-time satellite imagery in order to counter a military space race. The alternative is a UN led control organization like the IAEA.

Other organizations like the Lifeboat Foundation could also play an important role in developing a threat reduction system for the ongoing cold space war.