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28 February 2024
- 21:2121:21, 28 February 2024 diff hist +182 Space Radiation →Magnetic Shielding
- 21:1321:13, 28 February 2024 diff hist +1,826 Space Radiation →Active Shielding
- 20:4220:42, 28 February 2024 diff hist +1,090 Space Radiation →Electrostatic Shielding
- 20:3220:32, 28 February 2024 diff hist +1,105 Space Radiation →Protection and Mitigation
- 20:2420:24, 28 February 2024 diff hist +1,831 Space Radiation →Protection and Mitigation
- 20:0920:09, 28 February 2024 diff hist +30 Space Radiation →Protection and Mitigation
- 20:0820:08, 28 February 2024 diff hist +19 Space Radiation →Coronal Mass Ejections
- 20:0720:07, 28 February 2024 diff hist +1,775 Space Radiation →Protection and Mitigation
27 February 2024
- 09:0609:06, 27 February 2024 diff hist +299 Space Radiation →Relativistic Travel
- 08:5908:59, 27 February 2024 diff hist +144 Space Radiation →Relativistic Travel
- 08:5508:55, 27 February 2024 diff hist +1,587 Space Radiation →Relativistic Travel
- 08:4308:43, 27 February 2024 diff hist +737 Space Radiation →Relativistic Travel
- 08:4208:42, 27 February 2024 diff hist +256 N File:Relativistic travel radiation penetration depth.png Stopping distance of protons in titanium and living tissue as a function of speed <math>\beta=v/c</math> relative to light speed. Oleg G. Semyonov, "Radiation Hazard of Relativistic Interstellar Flight", https://arxiv.org/pdf/physics/0610030
- 08:3008:30, 27 February 2024 diff hist +265 N File:Relativistic travel unshielded dose rate.png The rate at which an unshielded individual will take radiation dose as a function of speed <math>\beta=v/c</math> relative to light speed. Oleg G. Semyonov, "Radiation Hazard of Relativistic Interstellar Flight", https://arxiv.org/pdf/physics/0610030
- 08:1308:13, 27 February 2024 diff hist +12 Space Radiation →Supernovas
- 08:1208:12, 27 February 2024 diff hist +647 Space Radiation →Supernovas
- 07:5907:59, 27 February 2024 diff hist −13 Space Radiation →Stellar Corpse Environments
26 February 2024
- 22:0822:08, 26 February 2024 diff hist +1,578 Space Radiation →Stellar Corpse Environments
- 21:4921:49, 26 February 2024 diff hist +2,329 Space Radiation →Stellar Corpse Environments
- 20:5220:52, 26 February 2024 diff hist +172 Space Radiation →Stellar Corpse Environments
- 20:4720:47, 26 February 2024 diff hist +1,238 Space Radiation →Stellar Corpse Environments
- 07:5707:57, 26 February 2024 diff hist +891 Space Radiation →Stellar Corpse Environments
25 February 2024
- 16:1616:16, 25 February 2024 diff hist +347 Space Radiation →Solar Energetic Particles and Solar Particle Events
- 16:1316:13, 25 February 2024 diff hist +749 Space Radiation →Solar Energetic Particles and Solar Particle Events
- 16:1216:12, 25 February 2024 diff hist +574 N File:SEP shielding.png Relative dose of solar energetic particles as a function of thickness of aluminum and polyethylene shielding L.W. Townsend, J.H. Adams, S.R. Blattnig, M.S. Clowdsley, D.J. Fry, I. Jun, C.D. McLeod, J.I. Minow, D.F. Moore, J.W. Norbury, R.B. Norman, D.V. Reames, N.A. Schwadron, E.J. Semones, R.C. Singleterry, T.C. Slaba, C.M. Werneth, M.A. Xapsos, "Solar particle event storm shelter requirements for missions beyond low Earth orbit", Life Sciences in Space Research, Volume 17 (2018), Pages 32-...
- 15:4715:47, 25 February 2024 diff hist +699 Space Radiation →Shielding Against Cosmic Rays
- 15:4615:46, 25 February 2024 diff hist +498 N File:GCR Shielding comparison.png Comparison of aluminum, lunar regolith, and polyethyene shielding as a function of thickness at both solar maximum and solar minimum galactic cosmic ray conditions. Felix Horst, Daria Boscolo, Marco Durante, Francesca Luoni, Christoph Schuy, and Uli Weber, "Thick shielding against galactic cosmic radiation: A Monte Carlo study with focus on the role of secondary neutrons", Life Sciences in Space Research, Volume 33 (2022), Pages 58-68, https://doi.org/10.1016/j.lssr.2022.03.003.
- 14:3514:35, 25 February 2024 diff hist +634 Space Radiation →Shielding Against Cosmic Rays
- 14:0414:04, 25 February 2024 diff hist +81 Space Radiation →Coronal Mass Ejections
- 14:0314:03, 25 February 2024 diff hist +545 Space Radiation →Solar Flares
- 13:5913:59, 25 February 2024 diff hist +472 Space Radiation →Solar Flares
- 13:5913:59, 25 February 2024 diff hist +403 N File:Solar flare shielding Poly.png Relative dose of solar flare x-rays for a given thickness of polymer shielding. Different curves show different flare spectral distributions of x-rays. David S. Smith and John M. Scalo, "Risks due to X-ray flares during astronaut extravehicular activity", Space Weather vol. 5, S06004, doi:10.1029/2006SW000300 (2007) https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2006SW000300
- 13:5613:56, 25 February 2024 diff hist +404 N File:Solar flare shielding Al.png Relative dose of solar flare x-rays for a given thickness of aluminum shielding. Different curves show different flare spectral distributions of x-rays. David S. Smith and John M. Scalo, "Risks due to X-ray flares during astronaut extravehicular activity", Space Weather vol. 5, S06004, doi:10.1029/2006SW000300 (2007) https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2006SW000300
- 09:3209:32, 25 February 2024 diff hist +776 Space Radiation →Shielding Against Cosmic Rays
- 09:2209:22, 25 February 2024 diff hist 0 Space Radiation →Shielding Against Cosmic Rays
- 09:2109:21, 25 February 2024 diff hist +457 Space Radiation →Shielding Against Cosmic Rays
- 09:2109:21, 25 February 2024 diff hist +392 N File:Regolith Shielding.png Relative effect of radiation (compared to no shielding) behind different thicknesses of water, aluminum, and lunar regolith. Tony C. Slaba, "Radiation Shielding for Lunar Missions: Regolith Considerations", LSIC Crosstalk 7/18/2022 https://lsic.jhuapl.edu/uploadedDocs/focus-files/1604-E&C%20+%20EE%20Monthly%20Meeting%20-%202022%2007%20July_Presentation%20-%20NASA%20Slaba.pdf
- 09:1509:15, 25 February 2024 diff hist +39 Space Radiation →Galactic Cosmic Rays
24 February 2024
- 21:4221:42, 24 February 2024 diff hist +57 Space Radiation →Galactic Cosmic Rays
- 21:4121:41, 24 February 2024 diff hist +93 Space Radiation →Galactic Cosmic Rays
- 20:2620:26, 24 February 2024 diff hist +416 Space Radiation →Galactic Cosmic Rays
- 20:2420:24, 24 February 2024 diff hist +339 N File:GCR Thick Shielding Atmospheric.png Dose rates for atmospheric shielding. Robert C. Youngquist, Mark A. Nurge, Stanley O. Starr, Steven L. Koontz, "Thick galactic cosmic radiation shielding using atmospheric data", Acta Astronomica <b>94</b> (2014) 132-138 https://citeseerx.ist.psu.edu/document?repid=rep1&type=pdf&doi=6b1a8887b05a92afd074e5b935a8bd5148dfc8d9
- 18:5018:50, 24 February 2024 diff hist +697 Space Radiation →Galactic Cosmic Rays
- 18:3718:37, 24 February 2024 diff hist +451 N File:GCR Shielding Effectiveness.png Relative effect of radiation on biological tissue behind a given density of material. The results of two models are shown. On the left is the standard risk assessment method using quality factor as a function of linear energy transfer. On the right is a track structure repair kinetic model for mouse cells. W. Schimmerling <i>et al.</i>, "Shielding Against Galactic Cosmic Rays", Adv. Space Res. Vol. 17 No. 2 pp. (2)31-(2)36 (1996)
- 08:4908:49, 24 February 2024 diff hist +883 Space Radiation →Planetary Radiation Belts
23 February 2024
- 20:0220:02, 23 February 2024 diff hist +266 Space Radiation →Planetary Radiation Belts
- 19:5719:57, 23 February 2024 diff hist +16 Space Radiation →Planetary Radiation Belts
- 18:3518:35, 23 February 2024 diff hist +184 Space Radiation →Galactic Cosmic Rays
- 16:5516:55, 23 February 2024 diff hist 0 File:Planetary magnetic field and radiation belts.png Lwcamp uploaded a new version of File:Planetary magnetic field and radiation belts.png
- 16:5416:54, 23 February 2024 diff hist 0 File:Planetary magnetic field and radiation belts.png Lwcamp uploaded a new version of File:Planetary magnetic field and radiation belts.png
