Space

Name That Star

February 17, 2016
Space

Quang Trang, MJLST Staffer

For space lovers out there, the opportunity to name a star after a loved one sounds like a nice romantic gift for Valentine’s Day. The issue of whether this is actually allowed is somewhere between yes and no.

The main authority in naming astronomical objects is the International Astronomical Union (IAU). The goal of the IAU when formed in 1919 is to “to promote and safeguard the science of astronomy in all of its aspect through international cooperation.” Part of the IAU’s authority in its scientific mission promoting and safeguarding astronomy is the duty of being “the arbiter of planetary and satellite nomenclature.” In normal English, the IAU is the organization that decided Pluto does not qualify to be a planet.

Although the IAU is the leading authority in astronomical nomenclature, the organization still refuses to commercialize outer space by selling the rights to name space objects, such as stars. Due to the IAU being an international scientific organization, it does not have the authority nor the interest in outlawing such a practice. There are many services that would allow you to pick an unregistered star and name it for a fee. However, these multiple services are unrelated and have different databases. Essentially, a star you named with one service may be already be registered under a different name with a different service. Prominent star-naming services such as the International Star Registry are aware of its unofficial status. Rocky Mosele of ISR said “I think people are OK that it’s not official. I’m sure of it. I know because customers call again and again and again.” The ISR’s claims to not mislead any of its customers because it never once claimed to be official.

With each registration costing as much as fifty dollars, one might ask why the IAU does not participate in such a business. The organization would be an industry leader with the ability to give these registered names official status. The proceeds could be used to fund various projects. After receiving many requests to from private individuals to name stars, the IAU explains its policy to stay out of such an enterprise: Thus like true love and many other of the best things in human life, the beauty of the night sky is not for sale, but is free for all to enjoy.

Marooned on Mars: A Legal Look at Space Piracy

December 16, 2015
International, Maritime, Space

Tim Joyce, MJLST Staffer

Trending on the LawSciBlog’s recent foray into the intersection of law & pop culture, this week our intrepid Staffer corps fact-checks the legal accuracy of certain claims made in Andy Weir’s The Martian. With apologies to the many quality primetime law-connected dramas out there – such as How to Get Away with Murder, Scandal, and The Good Wife (note all the strong female protagonists: go Hollywood!) – this is a science & technology blawg. I will thus attempt to constrain my meanderings to science-related law topics in this book/film.

You may already be familiar with the premise of Hollywood’s most recent riff on the tried and true “We must rescue Matt Damon” formula: an American astronaut with one of the first manned missions to Mars is accidentally left behind during an emergency evacuation. With only his superior botany skills and a can-do attitude, he is forced to “science the s@*t” out of his resources, MacGuyver-style, to avoid starving to death before the rescue mission arrives. Along the way he has all kinds of time alone with his thoughts, and the audience is treated to some hilarious, if occasionally profane, musings.

Author Andy Weir wrote the book as a compilation of various thought experiments he had been entertaining for years. He wanted to know what an actual manned mission to Mars might look like, and what kind of problems might pop up. Although smarter people than I have probed the book’s relative scientific accuracy (hyperlink warning: spoilers inside!), there is one short chapter that explores some legal complications of being the only colonist on an unclaimed planet. Here’s how Matt Damon’s character concludes that he is a “space pirate” (mild spoilers ahead):

  1. An international treaty says: no one can lay claim to anything not on the Earth’s surface.
  2. Another treaty says: if you’re not in any country’s territory then maritime law applies.
  3. The NASA living enclosure and rover are NASA property, and inside American non-military property American law applies.
  4. THEREFORE: Martian land is governed by maritime law; any step outside of his living enclosure or rover vehicle is a journey into “international waters.”
  5. He intends to travel across Martian soil to take control of another NASA vessel.
  6. He has not been able to communicate with NASA to get explicit permission to commandeer this other vessel. (Plot point: communication capability is a major reason he must travel to said ship.)
  7. THEREFORE: By travelling across “international waters” with the intent to commandeer an American non-military vehicle, but without explicit permission, he intends to engage in piracy.

Ergo: space pirate. (If you’re curious, this all happens in the short “Sol 381” chapter.) The character seems to think this is a pretty sweet outcome, but, is he right about the law?

By and large, the answer is yes.

Article II of the Outer Space Treaty guarantees that, “[o]uter space, including the moon and other celestial bodies, is not subject to national appropriation by claim of sovereignty, by means of use or occupation, or by any other means.” So, Mars’ surface cannot be claimed by any sovereign party to the treaty. For an exploration of the Treaty’s rationale, see “the common heritage of mankind.”

Further, Article VIII of the Treaty guarantees American jurisdiction over American objects launched into space. So, the living enclosure and rover are definitely under active American jurisdiction on Mars. By extension, anything outside those Earth-originated environments would be “international waters.”

Here’s where it gets tricky.

The other American vessel should still be under American jurisdiction. A trusting reader might assume that NASA would allow its own astronaut to commandeer its other vessel, but we all know what happens when you assume. It is at least plausible that the astronaut had not been given explicit permission to use other NASA spacecraft’s communication devices. Under Article 101 of the United Nations Convention on the Law of the Sea (UNCLOS), which arguably should apply to dispute in outer space, a private person seeking to plunder a ship on the high seas commits an act of piracy. What is unclear is whether an American can be a pirate with regard to NASA property. Weir hurdles this deftly by claiming the astronaut’s botanical cultivation of Martian soil makes him a planetary colonist and the very first human Martian (hence, the book’s title).

That is basically the situation Matt Damon’s character finds himself in, more or less. Certainly, any other astronaut seeking to prevent him from taking control of the other spaceship would view him as a pirate! On the other hand, the assumption that NASA wouldn’t give advance permission for their astronauts to use other Mars-stationed property stretches the limits of believability a bit. And, even if he technically qualifies as a space pirate while travelling to the other vessel, once he gets there and asks NASA politely, he would probably lose technical pirate status.

Is any of this important?

Maybe. Though the current space race isn’t furiously driven like the furious Cold War days, space is becoming ever more crowded as more nations and even private companies enter the game. Even Andy Weir himself admits in a website Q&A that advances in technology since the 60’s make it less justifiable to risk human life to gain scientific data that robots can gather just as easily. It seems like the focus of space law, for the time being, will be a little closer to home. For an in-depth examination of some legal issues surrounding allocation of geostationary orbits, see MJLST Editor Ian Blodger’s article in the upcoming Winter 2016 issue of MJLST.
tl;dr: The legal issue of space piracy may all be just a nerdy thought experiment for the moment. If nothing else, this article should provide you with an interesting conversation starter at the holidays, and a perfect way to change the subject when your non-lawyer relatives start pontificating about the real meaning of the Second Amendment. For now: live long and prosper.

Asteroid Mining–Not as Crazy as It Sounds

December 8, 2014
Energy, Environment, Industry, Space

Kirsten Johanson, MJLST Staff Member

Over the last few years, companies and private individuals have fully embraced novel space activities. Felix Baumgarner completed a space jump with the Red Bull Stratos making him the first human to break the sound barrier without any engine power. SpaceX developed the first reusable rocket, the Grasshopper, and was the first private company to deliver a shipment to the International Space Station. Recently, for the first time in history, the European Space Agency’s Rosetta mission successfully landed its space probe, Philae, on a comet. All of these ventures pushed the boundaries of space exploration beyond limits previously imagined and all indications are that such ventures will continue. One such undertaking is the concept of asteroid mining.

Asteroid mining is exactly what it sounds like–humans landing equipment on asteroids (and other celestial bodies) and mining for the minerals that exist on such bodies. This concept might seem far-fetched but, in reality, it is a serious topic of debate primarily because of the usefulness of the minerals that exist in the crust of asteroids. NASA has released an estimate “that the mineral wealth resident in the belt of asteroids between the orbits of Mars and Jupiter would be equivalent to about 100 billion dollars for every person on Earth today.” The reason such minerals are so valuable is because of their potential usefulness in “developing the space structures and in generating the rocket fuel that will be required to explore and colonize our solar system in the twenty-first century.”

Today, the physical process of actually mining these minerals is still not cost-effective. As a result, the bigger debate on this issue is currently over the legal implications of mining these minerals and returning them to earth. In space, no single country’s laws apply but, in 1967, over one hundred countries signed the United Nations’ Outer Space Treaty of 1967. This treaty is the current law governing space and it prevents the appropriation of outer space or any celestial body in space by any nation in its space explorations. While this law unequivocally applies to sovereign nations, the recent dispute is over the extension of this treaty to private companies participating in asteroid mining. If it does not, companies like Deep Space Industries, Planetary Resources, SpaceX, or other private players in the space exploration field could begin developing mining procedures that would give them rights to any mined asteroid minerals. However, if it does extend to private companies, this opportunity will likely die before it gets started.

Many in the public and private sector in the United States are pushing for a narrow application of the law to nations which would leave open a huge industry for private development. In Congress, the American Space Technology for Exploring Resource Opportunities In Deep Space (ASTEROIDS) Act was recently introduced in the House of Representatives to officially clarify the law. The Act states that “[a]ny resources obtained in outer space from an asteroid are the property of the entity that obtained such resources.” This would mean that any asteroid mining company would have unlimited access and appropriation rights over any asteroid materials they mine but not over the asteroid itself.

Proponents of such a reading have introduced various statutory interpretation arguments that get them to this conclusion, but it is still unclear which of these will likely be the winning argument. Or even if there will be a winning argument. While asteroid mining does present significant opportunities well into the future, it is still a long-term venture unlikely to launch anytime soon. As a result, if the ASTEROID Act does find enough support in Congress, that is only the first step. The United States will still have to assert an international position amenable to other countries.

Overall, this Act and the publicity it will need to generate to garner sufficient support of this industry is an important first step but it cannot be the only step. Other countries, particularly the signers of the Outer Space Treaty of 1967, must develop a workable solution to the ownership question of asteroid materials. However, with the potential technological advancements and economic realizations of such an industry, it is unlikely that countries with active space exploration will be opposed. Hopefully, these countries see the development opportunities as outweighing the costs because, if there is wide acceptance, this might be the real start of space development and colonization.

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