Panel on the Challenge of Orbital Debris

Panel on the Challenge of Orbital Debris Bhavya Lal, Ph.D. Session Moderator Space Studies Board National Academies of Sciences, Engineering, Medicine May 1, 2018

A little history of man -made debris Vanguard-I, launched in 1958 may be the first piece of debris in space (in MEO and expected to remain there for 200 more years) Humans created debris first time out the door astronaut Ed White lost a glove on the first American EVA (Gemini 4, 1965) Since then ~300 in-orbit fragmentation events have been recorded since 1961 Few collisions - <10 accidental and intentional events A privately owned American communication satellite, Iridium-33, and a Russian military satellite, Kosmos2251, collided at 11.7 km/s, both destroyed, and more than 2300 trackable fragments generated Majority of the events were explosions of spacecraft and upper stages US and Soviet Union ASATs (1968-1985) Chinese FengYun-1C engagement in January 2007 alone created 3000 pieces of debris, and increased the trackable space object population by 25%. Sources: History of Space Debris, Loretta Hall, ESA website: https://www.esa.int/our_activities/operations/space_debris/about_space_debris

Other interesting debris events Ejection of reactor cores from Buk reactors 16 such ejection events Droplets of reactor coolant liquid released into space Release of thin copper wires as part of a radio communication experiment (create a passive radio reflector) by MIT Lincoln Lab in the 1960s 1961 and 1963 to create an artificial ionosphere above the Earth payload failed to disperse as planned, and 7 objects were catalogued as debris (still in orbit at 3,600 km) Most important non-fragmentation debris source: >2,400 solid rocketmotor firings, which have released Al 2 O 3 in the form of micrometer-- sized dust and mm- to cm-sized slag particles

Where is the debris? Source: https://www.esa.int/spaceinimages/images/2017/04/evolution_of_space_object_population 4

LEO and GEO have different types of debris Source: J. McDowell, 2018. Note: the Y axes for the figures are different

Who put it there? Source: http://www.businessinsider.com/space-junk-debris-amount-statistics-countries-2018-3?r=uk&ir=t 6

Source: Diana McKissock, May 2017 Growing overlap of orbits

Future includes mega constellations and a large number of small satellites OneWeb Sky and Space Global Kepler Communications SpaceX 4425 USA/New Zealand Romania/USA Number of Small Satellite Launchers in Development by Country with Plans to be Operational Between 2017 and 2021 Fleet Space Aireon Norway NSLComm (SkyFi) Axelspace Italy Hera Systems NorStar NorthStar Canada Reaktor Space Satellogic Argentina Kleos Space Astro Digital (Aquila) Russia ICEYE Siwei Star SuperView Japan Karten Space Laser Light Spain Planetary Resources SRT Marine Earth-i Audacy Space Number of Satellites Per Constellation (n=60) China United Kingdom 0 100 200 300 400 500 600 700 800 Planned Launched USA 0 1 2 3 4 5 6 7 8 9 10 11 12 13 Number of Organizations Developing Small Launchers Source: http://www.newspace.im/, n.d. Source: Lal, de la Rosa Blanco, Behrens et al., Global Trends in Small Satellites.

New Constellations can Exceed Existing Object Counts 1800 1700 New Constellations 1600 Existing > 10cm (Slide from Aerospace Corporation) New constellations Existing residents Altitude (km) 1500 1400 1300 1200 1100 1000 900 800 700 600 500 Globalstar, LeoSat, 120 Spire, 100 Skybox, 28 SpaceX 4, 375 OneWeb, 648 Iridiium, 72 Orbcomm, 31 SpaceX 3, 1600 SpaceX 1, 2, 2000 Boeing 1, 1008 SpaceX 5, Boeing 2, 2398 0 500 1000 1500 2000 2500 3000 Theia +112 Globalstar +40 LeoSat +140 Boeing +1948 OneWeb +648 SpaceX +4425 Boeing +1008 Iridium +72 Orbcomm +31 Spire +100 Skybox +28 Globalstar NOAA weather Iridium Orbcomm NASA Science A Train Hubble 400 300 ISS Human flight 200 100 0 Suborbital Flight Atmosphere

Not a fun counting exercise! In 2017 alone, the US Air Force's 18th Space Control Squadron provided data for almost 310,000 close calls in space, and issued 655 "emergency-reportable" alerts to satellite operators. Of these, 579 were in LEO Source: http://www.businessinsider.com/space-junk-collision-statistics-government-tracking-2017-2018-4

Goals for the afternoon J.-C. Liou, NASA Darren McKnight, Integrity Apps Dan Oltrogge, AGI Brian Weeden, Secure World Foundation Solve the problem. What needs to be done? How should we do it? Who should do it? Who should pay for it? What happens if we do nothing? Understand the problem. Why is this a hard problem? How did we get here? Define the problem. What is the problem? Why is it a problem? (start with a definition)

Questions for the Q-A Period Big Picture Questions Why haven t we done anything yet? What do we not know yet? What are some near-term things we can start with? How can the National Academies help the orbital debris community? Specific Questions (thanks to my colleague at STPI Ben Corbin) How much risk is added with a mega constellation of small satellites compared to existing spent upper stages? How much would we expect risk to rise as a result of a collision between two small satellites (maybe in comparison to the weather/russian satellite collision)? Are there any promising technologies that might be more effective than docking with each individual piece of debris? Who is liable for debris cascades, when it's hard to tell which satellite a piece of debris came from but you do know which collision it came from?

BACKUP SLIDES

Objects Being Tracked in LEO FOR INTERNAL STPI USE ONLY 14 Source: https://www.axios.com/yes-there-really-is-a-lot-of-space-junk-930b166d-68c4-4803-9bd6-9e23514eb942.html

Total Number of Satellites Launched by Country Number of Satellites Launched Each Year 500 450 400 350 300 250 200 150 100 50 0 1957 1958 1959 1960 1961 1962 1963 1964 1965 1966 1967 1968 1969 1970 1971 1972 1973 1974 1975 1976 1977 1978 1979 1980 1981 1982 1983 1984 1985 1986 1987 1988 1989 1990 1991 1992 1993 1994 1995 1996 1997 1998 1999 2000 2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013 2014 2015 2016 2017 Year United States USSR/Russia Other China Japan India France United Kingdom Germany Canada Italy Source: J. McDowell, Satellite Catalog, 2018 CREDIT Sara Carioscia Note: The numbers for the Soviet Union are added to the numbers for Russia. The high number of satellites in recent years is related to growing number of CubeSat launches.

Fraction of Launches and Satellites Launched, by Country Source: J. McDowell, Satellite Catalog, 2018 CREDIT Sara Carioscia Note: The numbers for the Soviet Union are added to the numbers for Russia

Altitude distribution of objects in the near-earth region https://www.nasa.gov/sites/default/files/atoms/files/niac_2016_phasei_janson_braneconcept_tagged.pdf 17