Could future COP talks help to de-junk near-earth space?

Soundings ◽  
2021 ◽  
Vol 78 (78) ◽  
pp. 81-85
Author(s):  
Susmita Mohanty
Keyword(s):  
Space Debris ◽  
Outer Space ◽  
Low Earth Orbit ◽  
Observation Data ◽  
Earth Space ◽  
Near Earth Space ◽  
Earth Environment ◽  
Outer Space Treaty ◽  
Earth Observation Data ◽  
Earth’S Climate

Space debris has reached alarming proportions and is growing at a frightening pace, because of the expanding number of satellites circulating in Low Earth Orbit (LEO), designed to increase global Internet coverage and provide earth observation data. LEO satellites are now being launched in mega-constellations, including by Elon Musk's company SpaceX. It is time to completely overhaul the 1967 Outer Space Treaty, which was not designed to deal with current problems. The COP forum should therefore include the near-earth environment within its concept of the earth's climate, enabling the UN to acknowledge, as a collective, the growing menace of human-made debris in near-earth space, and, in partnership with the UN-Outer Space Affairs Office (UN-OOSA), call for a new declaration on LEO.

scholarly journals Ecology of Near-Earth Space

2017 ◽  
pp. 126-135
Author(s):  
Elena Nikoghosyan
Keyword(s):  
Space Debris ◽  
Artificial Satellite ◽  
Outer Space ◽  
Anthropogenic Factors ◽  
Negative Consequences ◽  
Earth Space ◽  
Near Earth Space ◽  
Electromagnetic Pollution

The technical achievements of our civilization are accompanied by certain negative consequences affect the near-Earth space. The problem of clogging of near-Earth space by "space debris" as purely theoretical arose essentially as soon as the first artificial satellite in 1957 was launched. Since then, the rate of exploitation of outer space has increased very rapidly. As a result, the problem of clogging of near-Earth space ceased to be only theoretical and transformed into practical. Presently, anthropogenic factors of the development of near-Earth space are divided into several categories: mechanical, chemical, radioactive and electromagnetic pollution.

Evalution of technical means capabilities for minimisation of technogenic pollution of a near space

2015 ◽  
Vol 26 (3-4) ◽  
pp. 124-131
Author(s):  
N. M. Dron ◽  
P. G. Horolsky ◽  
L. G. Dubovik
Keyword(s):  
Space Debris ◽  
Outer Space ◽  
Ecological Condition ◽  
Space Environment ◽  
Launch Vehicles ◽  
Earth Space ◽  
Near Earth Space ◽  
Near Space ◽  
Space Objects ◽  
Major Factors

The conducted researches are directed on the solution of one of the most important problems of the space use – a problem connected with existence and inadmissibility of growth the quantity of a technogenic origin space debris on low near-earth and geostationary orbits because its further increase will overlap to mankind an exit in space and will terminate space activity. In the basis of a technique of researches the analysis of an existing ecological condition of the surrounding space environment on which base determined the major factors of pollution of the space and considered ways of struggle against space debris on near-earth orbits is put. It is established that the major factors of pollution of the near-earth space are spent stages of launch vehicles and accelerating units, the space crafts which have terminated its existence, fragments of destroyed artificial space objects, operational elements etc. Space debris basically is concentrated on low orbits and around a geostationary orbit which on the basis of the analysis of statistical data on space crafts starts are in most common use. Here groupings of space crafts of the various particular mission, including space crafts of communication, relay, TV, the early prevention of a rocket attack are concentrated. It is shown that the main ways of struggle against space debris are prevention of occurrence new and removal of the already existing debris. Notable decrease in level of the pollution can achieve at cumulative use of such measures, as an exception of explosions of the space objects, limitation of quantity of the started space crafts, reduction of number of the accompanying fragments injected into orbits at starts. Methods and means of withdrawal from working orbits of space crafts upon termination of term of their active existence and known ways and systems of active removal of already existing fragments of the space debris, such as: application of an ionic bunch, the space ship-towing vehicle, the polyurethane foam, the pulsing laser, harpoon system, electrodynamic cord system are considered. Scientific novelty of the presented results consists in the description of conceptual actions for reduction of pollution of the space. The activities executed in the given direction, have huge practical value as the outer space exploration gives huge advantage and significant progress to mankind, but the further operation at near-earth space by existing methods without acceptance of the measures indicated in the article, its further safe development already will not allow in the near future.

Towards An Ethical Approach To Commercial Space Activities

2011 ◽  
pp. 281-292
Author(s):  
Jacques Arnould
Keyword(s):  
Outer Space ◽  
Orbital Debris ◽  
Earth Space ◽  
Commercial Space ◽  
Ethical Approach ◽  
The Future ◽  
Outer Space Treaty ◽  
Space Activities ◽  
Debris Mitigation ◽  
Future Utilization

This chapter introduces the ethical questioning in the field of space activities, especially space commerce. If the 1967 Outer Space Treaty defines space as the “property of all” and its exploration as the “province of all mankind”, the future utilization of near-Earth (and tomorrow Greater Earth) space needs probably a new ethics (if ethics means not only legal applications but also and for example the application of the “rule of three Ps”: protection, promotion and preparation). Orbital debris mitigation, the International Charter on Space and Major Disasters or, in the future, the safety of private astronauts crews offer lessons in realism and sources of prospective reflections. Space ethics is still in its infancy.

International Liability for Commercial Space Activities and Related Issues of Debris

2020 ◽  
Author(s):  
Elina Morozova ◽  
Alena Laurenava
Keyword(s):  
Space Debris ◽  
Artificial Satellite ◽  
Outer Space ◽  
International Space ◽  
Space Law ◽  
Air Space ◽  
Space Objects ◽  
Outer Space Treaty ◽  
International Liability ◽  
Space Activities

Space activities are technically sophisticated, challenging, and high risk endeavors. Notwithstanding precautionary measures that are taken by commercial operators, damage may be caused during space objects’ launching, passing through air space, in-orbit maneuvering and operating, and de-orbiting. The rules and procedures aimed at ensuring the prompt payment of a full and equitable compensation for such damage constitute the international liability regime, which is of crucial importance in space law. The first reference to international liability for damage caused by space objects and their component parts on the Earth, in air space, or in outer space, can be traced back to the very beginning of the space era. In 1963, just few years after the first ever artificial satellite was launched, international liability was declared by the UN General Assembly as one of the legal principles governing the activities of states in the exploration and use of outer space. It was later made legally binding by inclusion in the 1967 Outer Space Treaty and received further development in the 1972 Liability Convention. The latter is generally referred to as lex specialis when the interrelation between the two international treaties is described and introduces several provisions that treat liability for damage caused in specific circumstances somewhat differently. International space law imputes liability on states that launch or procure launchings of space objects and states from whose territory or facility space objects are launched. This does not, however, exclude liability for damage caused by space objects, which are operated by private entities. Still, international liability for accidents involving commercial operators stays with the so-called “launching states,” as this term is defined by the Liability Convention for the same states that are listed in the Outer Space Treaty as internationally liable. Insurance is well known to settle liability issues, including those arising from commercial launches, however, it is not always mandatory. Frequently, space-related accidents involve non-functional space objects and their component parts, which are usually referred to as space debris. This may include spent rocket stages and defunct satellites, as well as fragments from their disintegration. Since the non-functional state of a space object does not change its legal status, the relevant provisions of international space law that are applicable to space objects continue to apply to what is called “space debris.” This means, in particular, that launching states are internationally liable for damage caused by space debris, including cases where such debris was generated by private spacecraft. The probability of liability becomes even higher when it comes to active space debris removal. Such space activities, which are extensively developed by private companies, are inextricably linked to potential damage. Yet, practical problems arise with identification of space debris and, consequently, an efficient implementation of the liability regime.

scholarly journals ORION: Clearing near-Earth space debris using a 20-kW, 530-nm, Earth-based, repetitively pulsed laser

1996 ◽  
Vol 14 (1) ◽  
pp. 1-44 ◽  
Author(s):  
C.R. Phipps ◽  
G. Albrecht ◽  
H. Friedman ◽  
D. Gavel ◽  
E.V. George ◽  
...  
Keyword(s):  
Space Debris ◽  
Detection System ◽  
Public Awareness ◽  
Phase Error ◽  
Laser System ◽  
Average Power ◽  
Pulsed Laser ◽  
Earth Space ◽  
Near Earth Space ◽  
Quantum Leap

When a large piece of space debris forced a change of flight plan for arecent U.S. Space Shuttle mission, the concept that we are trashing space as well as Earth finally attained broad public awareness. Almost a million pieces of debris have been generated by 35 years of spaceflight, and now threaten long-term space missions. The most economical solution to this problem is to cause space debris items to reenter and burn up in the atmosphere. For safe handling of large objects, it is desired to do this on a precomputed trajectory. Due to the number, speed, and spacial distribution of the objects, a highly agile source of mechanical impulse, as well as a quantum leap in detection capability are required. For reasons we will discuss, we believe that the best means of accomplishing these goals is the system we propose here, which uses a ground-based laser system and active beam phase error correcting beam director to provide the impulse, together with a new, computer-intensive, very high-resolution optical detection system to locate objects as small as 1 cm at 500-km range. Illumination of the objects by the repetitively pulsed laser produces a laser-ablation jet that gives the impulse to de-orbit the object. A laser of just 20-kW average power and state-of-the-art detection capabilities could clear near-Earth space below 100-km altitude of all space debris larger than 1 cm but less massive than 100 kg in about 4 years, and all debris in the threatening 1–20-cm size range in about 2 years of continuous operation. The ORION laser would be sited near the Equator at a high altitude location (e.g., the Uhuru site on Kilimanjaro), minimizing turbulence correction, conversion by stimulated Raman scattering, and absorption of the 530-nm wavelength laser beam. ORION is a special case of Laser Impulse Space Propulsion (LISP), studied extensively by Los Alamos and others over the past 4 years.

scholarly journals Construction of a model of evolution of objects of small-sized fraction of space debris formed as a result of destruction

2021 ◽  
pp. 1-27
Author(s):  
Gennady Konstantinovich Borovin ◽  
Mikhail Vitalyevich Zakhvatkin ◽  
Victor Arkadievich Stepaniants ◽  
Igor Vyacheslavovich Usovik
Keyword(s):  
Space Debris ◽  
Time Interval ◽  
System Of Equations ◽  
Mass Ratio ◽  
Space Object ◽  
Earth Space ◽  
Near Earth Space ◽  
Statistical Estimates ◽  
Long Time ◽  
Common Understanding

The paper proposes a approach for constructing a statistical model for the distribution of a small-sized fraction of space debris in near-earth space, based on a particular model of the evolution of objects of a small-sized fraction of space debris. An algorithm for predicting the evolution of objects of small-sized fraction of space debris formed as a result of the destruction of the parent space object over a long time interval is described, as well as a system of equations in variations for mass calculations and statistical estimates of the parameters of the distribution of space debris in near-earth space. At a time interval of 10 years, calculations were carried out to obtain a common understanding of the evolution and lifetime of fragments of space debris ranging in size from 0.01 to 1 mm in the orbits of real groups and individual spacecraft. The time of existence of objects of small-sized fraction of space debris of the specified sizes depending on the parameters of the orbit and the value of their area-to-mass ratio is determined.

The Outer Space Treaty

2018 ◽  
Author(s):  
Christopher Daniel Johnson
Keyword(s):  
Space Debris ◽  
Outer Space ◽  
National Level ◽  
Telecommunications Industry ◽  
The United States ◽  
New Governance ◽  
Small Satellites ◽  
National Space ◽  
Celestial Bodies ◽  
Outer Space Treaty

Negotiated at the United Nations and in force since 1967, the Outer Space Treaty has been ratified by over 100 countries and is the most important and foundational source of space law. The treaty, whose full title is “Treaty on Principles Governing the Activities of States in the Exploration and Use of Outer Space, Including the Moon and Other Celestial Bodies,” governs all of humankind’s activities in outer space, including activities on other celestial bodies and many activities on Earth related to outer space. All space exploration and human spaceflight, planetary sciences, and commercial uses of space—such as the global telecommunications industry and the use of space technologies such as position, navigation, and timing (PNT), take place against the backdrop of the general regulatory framework established in the Outer Space Treaty. A treaty is an international legal instrument which balances rights and obligations between states, and exists as a kind of mutual contract of shared understandings, rights, and responsibilities between them. Negotiated and drafted during the Cold War era of heightened political tensions, the Outer Space Treaty is largely the product of efforts by the United States and the USSR to agree on certain minimum standards and obligations to govern their competition in “conquering” space. Additionally, the Outer Space Treaty is similar to other treaties, including treaties governing the high seas, international airspace, and the Antarctic, all of which govern the behavior of states outside of their national borders. The treaty is brief in nature and only contains 17 articles, and is not comprehensive in addressing and regulating every possible scenario. The negotiating states knew that the Outer Space Treaty could only establish certain foundational concepts such as freedom of access, state responsibility and liability, non-weaponization of space, the treatment of astronauts in distress, and the prohibition of non-appropriation of celestial bodies. Subsequent treaties were to refine these concepts, and national space legislation was to incorporate the treaty’s rights and obligations at the national level. While the treaty is the cornerstone in the regulation of activities in outer space, today the emergence of new issues that were not contemplated at the time of its creation, such as small satellites and megaconstellations, satellite servicing missions, the problem of space debris and the possibility of space debris removal, and the use of lunar and asteroid resources, all stretch the coherence and continuing adequacy of the treaty, and may occasion the need for new governance frameworks.

scholarly journals Effect of thermospheric contraction on remediation of the near-Earth space debris environment

2011 ◽  
Vol 116 (A2) ◽  
pp. n/a-n/a ◽  
Author(s):  
Hugh G. Lewis ◽  
Arrun Saunders ◽  
Graham Swinerd ◽  
Rebecca J. Newland
Keyword(s):  
Space Debris ◽  
Earth Space ◽  
Near Earth Space
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