| Type | Description | Date | Keywords | Notes | Source |
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| link | Freebase entry@ | | | | Wikidata |
| link | Acta Aeronautica et Astronautica Sinica Simulation Analysis of Removal of Elliptic Orbit Space Debris Using Ground-based Laser@ | | | | Wikidata |
| link | Acta Aeronautica et Astronautica Sinica Modeling and Simulation on Active Space Debris Orbit Maneuver Based on Laser Ablation Impulse Coupling@ | | | | Wikidata |
| link | Acta Aeronautica et Astronautica Sinica State estimation of space debris group based on random finite set@ | | | | Wikidata |
| link | Acta Astronautica Are de-orbiting missions possible using electrodynamic tethers? Task review from the space debris perspective@ | | | | Wikidata |
| link | Acta Astronautica Active space debris removal by a hybrid propulsion module@ | | | | Wikidata |
| link | Acta Astronautica Review of uncertainty sources affecting the long-term predictions of space debris evolutionary models@ | | | | Wikidata |
| link | Acta Astronautica Compliance of the Italian satellites in low Earth orbit with the end-of-life disposal guidelines for Space Debris Mitigation and ranking of their long-term criticality for the environment@ | | | | Wikidata |
| link | Acta Astronautica Deployment dynamics of tethered-net for space debris removal@ | | | | Wikidata |
| link | Acta Astronautica Multiphysics elastodynamic finite element analysis of space debris deorbit stability and efficiency by electrodynamic tethers@ | | | | Wikidata |
| link | Acta Astronautica Contact dynamic models of space debris capturing using a net@ | | | | Wikidata |
| link | Acta Astronomica Sinica Orbit Lifetime Research of GTO Space Debris@ | | | | Wikidata |
| link | Acta Astronomica Sinica A Research on Collision Probability Calculation of Space Debris for Nonlinear Relative Motion@ | | | | Wikidata |
| link | Acta Astronomica Sinica A Method of Detecting Space Debris Based on Prior Information@ | | | | Wikidata |
| link | Acta Astronomica Sinica A Method for Correcting Telescope Pointing Error in Optical Space Debris Surveys@ | | | | Wikidata |
| link | Acta Astronomica Sinica Object Recognition Method of Space Debris Tracking Image Sequence@ | | | | Wikidata |
| link | Acta Astronomica Sinica The Platform Design of Space-based Optical Observations of Space Debris@ | | | | Wikidata |
| link | Acta Astronomica Sinica A Method of Detecting Space Debris with FM Radio Signals@ | | | | Wikidata |
| link | Advances in Astronomy An Introduction to a New Space Debris Evolution Model: SOLEM@ | | | | Wikidata |
| link | Advances in Materials Science and Engineering Aerogels Materials as Space Debris Collectors@ | | | | Wikidata |
| link | Advances in Space Research Status of CNES optical observations of space debris in geostationary orbit@ | | | | Wikidata |
| link | Advances in Space Research Radar interferometer measurements of space debris using the Evpatoria RT-70 transmitter@ | | | | Wikidata |
| link | Advances in Space Research Space debris mitigation in geosynchronous orbit@ | | | | Wikidata |
| link | Advances in Space Research A new algorithm for optical observations of space debris with the TAROT telescopes@ | | | | Wikidata |
| link | Advances in Space Research A robotic telescope network for space debris identification and tracking@ | | | | Wikidata |
| link | Advances in Space Research Active space debris charging for contactless electrostatic disposal maneuvers@ | | | | Wikidata |
| link | Advances in Space Research Incremental inverse kinematics based vision servo for autonomous robotic capture of non-cooperative space debris@ | | | | Wikidata |
| link | Advances in Space Research Physical characterization of the deep-space debris WT1190F: A testbed for advanced SSA techniques@ | | | | Wikidata |
| link | Advances in Space Research Long term evolution of the space debris population@ | | | | Wikidata |
| link | Advances in Space Research Updated results on the long-term evolution of the space debris environment@ | | | | Wikidata |
| link | Aerospace The Legal Framework for Space Debris Remediation as a Tool for Sustainability in Outer Space@ | | | | Wikidata |
| link | Aerospace ReDSHIFT: A Global Approach to Space Debris Mitigation@ | | | | Wikidata |
| link | Applied Optics Energy coupling in short pulse laser solid interactions and its impact for space debris removal@ | | | | Wikidata |
| link | Applied Optics Space debris removal by ground-based lasers: main conclusions of the European project CLEANSPACE.@ | | | | Wikidata |
| link | Applied Optics Space debris detection in optical image sequences.@ | | | | Wikidata |
| link | Applied Optics Joint 3D localization and classification of space debris using a multispectral rotating point spread function@ | | | | Wikidata |
| link | Astronomy and Astrophysics Meteoroid and space debris impacts in grazing-incidence telescopes@ | | | | Wikidata |
| link | Astrophysics and Space Science Optical detection of space debris using a large achromatic coronograph@ | | | | Wikidata |
| link | Chinese Journal of Geophysics A new method for space-based detecting small-scale space debris with high-resolution using transient electromagnetism@ | | | | Wikidata |
| link | EURASIP Journal on Advances in Signal Processing A novel algorithm and hardware architecture for fast video-based shape reconstruction of space debris@ | | | | Wikidata |
| link | Hypothesis (University of Toronto. Dept. of Medical Biophysics) Planet Earth, Space Debris@ | | | | Wikidata |
| link | IEEE Transactions on Geoscience and Remote Sensing Attitude and Spin Period of Space Debris Envisat Measured by Satellite Laser Ranging@ | | | | Wikidata |
| link | ISRN nanomaterials The Self-Healing Capability of Carbon Fibre Composite Structures Subjected to Hypervelocity Impacts Simulating Orbital Space Debris@ | | | | Wikidata |
| link | Icarus The observing campaign on the deep-space debris WT1190F as a test case for short-warning NEO impacts@ | | | | Wikidata |
| link | International Journal of Impact Engineering Influence of space debris impact on solar array under power generation@ | | | | Wikidata |
| link | Mathematical Problems in Engineering Evasive Maneuvers in Space Debris Environment and Technological Parameters@ | | | | Wikidata |
| link | Mathematical Problems in Engineering Resonant Orbital Dynamics in LEO Region: Space Debris in Focus@ | | | | Wikidata |
| link | Monthly Notices of the Royal Astronomical Society Space debris collision avoidance using a three-filter sequence@ | | | | Wikidata |
| link | Monthly Notices of the Royal Astronomical Society Poynting-Robertson drag and solar wind in the space debris problem@ | | | | Wikidata |
| link | Monthly Notices of the Royal Astronomical Society Initial orbit determination algorithms for cataloguing optical measurements of space debris@ | | | | Wikidata |
| link | Monthly Notices of the Royal Astronomical Society Space debris cataloguing capabilities of some proposed architectures for the future European Space Situational Awareness System@ | | | | Wikidata |
| link | Nature Communications Daylight space debris laser ranging@ | | | | Wikidata |
| link | Nature Orbital space debris ‘poses main threat to shuttle crew’@ | | | | Wikidata |
| link | Nature The flux of meteoroids and orbital space debris striking satellites in low Earth orbit@ | | | | Wikidata |
| link | Planetary and Space Science Modelling the evolution of the space debris population@ | | | | Wikidata |
| link | Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering The predicted growth of the low-Earth orbit space debris environment — an assessment of future risk for spacecraft@ | | | | Wikidata |
| link | Proceedings of the International Astronomical Union From Asteroids to Space Debris@ | | | | Wikidata |
| link | Progress in Aerospace Sciences Review and comparison of active space debris capturing and removal methods@ | | | | Wikidata |
| link | Publications of the Astronomical Society of the Pacific Image Restoration Based on Statistic PSF Modeling for Improving the Astrometry of Space Debris@ | | | | Wikidata |
| link | Review of Scientific Instruments Single microparticle launching method using two-stage light-gas gun for simulating hypervelocity impacts of micrometeoroids and space debris.@ | | | | Wikidata |
| link | Review of Scientific Instruments Radio frequency source of a weakly expanding wedge-shaped xenon ion beam for contactless removal of large-sized space debris objects.@ | | | | Wikidata |
| link | Science of the Total Environment Assessing the impact of space debris on orbital resource in life cycle assessment: A proposed method and case study@ | | | | Wikidata |
| link | Science Space debris puts exploration at risk@ | | | | Wikidata |
| link | Scientific Reports Experimental verification of high energy laser-generated impulse for remote laser control of space debris.@ | | | | Wikidata |
| link | Scientific Reports Demonstrating a new technology for space debris removal using a bi-directional plasma thruster@ | | | | Wikidata |
| link | Sensors Distributed Space Debris Tracking with Consensus Labeled Random Finite Set Filtering@ | | | | Wikidata |
| link | Sensors Analysis of Space Debris Orbit Prediction Using Angle and Laser Ranging Data from Two Tracking Sites under Limited Observation Environment@ | | | | Wikidata |
| link | The Astronomical Journal On the detection and tracking of space debris using the Murchison Widefield Array. I. Simulations and test observations demonstrate feasibility@ | | | | Wikidata |
| link | The Astronomical Journal Improving the precision of astrometry for space debris@ | | | | Wikidata |
| vessel | 6Q0B44E | | space debris | | Wikidata |
| vessel | 2010 KQ | | space debris | | Wikidata |
| vessel | 2022 UQ1 | | Centaur, space debris | | Wikidata |
| vessel | Ariane 1 rocket body debris | 1986 | former entity, space debris | | Wikidata |
| vessel | PAM-D rocket body | 2009 | former entity, kick motor, PAM-D, space debris | | Wikidata |
| vessel | SL-1 rocket body | 1958 | former entity, space tug, space debris | | Wikidata |
| vessel | SL-14 rocket body | 1985 | space tug, space debris | | Wikidata |
| vessel | Scout X-4 debris | | space debris | | Wikidata |
| vessel | WT1190F | | space debris | | Wikidata |
| vessel | space debris | | social issue, artificial satellite of the Earth, artificial satellite | | Wikidata |
| vessel | tool bag dropped during Expedition 70 EVA 2 | | tool bag, space debris | | Wikidata |
| vessel | tool bag dropped during STS-126 EVA 1 | | tool bag, space debris | | Wikidata |
| audio | De-Weltraumschrott | | | | Wikimedia |
| image | Couverture-du-réseau-de-surveillance-des-dérbris-spatiaux-des-Etats-Unis | | | | Wikimedia |
| image | Data Comprised from a computer, showing all of the debris orbiting our atmosphere | | | | Wikimedia |
| image | Debris impacts in HST parts | | | | Wikimedia |
| image | Debris impacts on a LDEF panel | | | | Wikimedia |
| image | Debris-GEO1280 p | | | | Wikimedia |
| image | Debris-LEO1280 | | | | Wikimedia |
| image | Debris-slag | | | | Wikimedia |
| image | Delta-II Stage2 XSS-10 | | | | Wikimedia |
| image | Hi-Speed impact test simulating space debris hitting an orbiting capsule. A blunt nose 20 millimeter model built of polyethylene hitting a aluminum target at 19,500 feet per second, in a pressure simulated as 100,000 feet altitude. | 1960 | | | Wikimedia |
| image | Hypervelocity Impact Demonstration | | | | Wikimedia |
| image | Image ufo atlantis | | | | Wikimedia |
| image | Impact Studies - GPN-2000-001643 | 1963 | | | Wikimedia |
| image | Impact Studies - GPN-2000-001644 | 1963 | | | Wikimedia |
| image | Number-Space-Debris-5-janvier-2021-fr | | | | Wikimedia |
| image | Orbital Debris Lifetime Diagram High Excentricity | | | | Wikimedia |
| image | Orbital Debris Lifetime Diagram Low Eccentricity | | | | Wikimedia |
| image | SMM panel hole | | | | Wikimedia |
| image | STS-118 debris entry | | | | Wikimedia |
| image | Spacedebris upd 2011 | | | | Wikimedia |
| image | Space debris impact on Space Shuttle window | 1983 | | | Wikimedia |
| image | XSS-11 Minotaur-Stage 2 | | | | Wikimedia |
| image | a piece of a thermal blanket that they think may have come from my descent stage, the rocket-powered jet pack that set Perseverance down on landing day back in 2021 | | | | Wikimedia |
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Couverture-du-réseau-de-surveillance-des-dérbris-spatiaux-des-Etats-Unis
Data Comprised from a computer, showing all of the debris orbiting our atmosphere
Debris impacts in HST parts
Debris impacts on a LDEF panel
Debris-GEO1280 p
Debris-LEO1280
Debris-slag
Delta-II Stage2 XSS-10
Hi-Speed impact test simulating space debris hitting an orbiting capsule. A blunt nose 20 millimeter model built of polyethylene hitting a aluminum target at 19,500 feet per second, in a pressure simulated as 100,000 feet altitude.
Hypervelocity Impact Demonstration
Image ufo atlantis
Impact Studies - GPN-2000-001643
Impact Studies - GPN-2000-001644
Number-Space-Debris-5-janvier-2021-fr
Orbital Debris Lifetime Diagram High Excentricity
Orbital Debris Lifetime Diagram Low Eccentricity
SMM panel hole
STS-118 debris entry
Spacedebris upd 2011
Space debris impact on Space Shuttle window
XSS-11 Minotaur-Stage 2
a piece of a thermal blanket that they think may have come from my descent stage, the rocket-powered jet pack that set Perseverance down on landing day back in 2021
