References analysis of the Wikipedia article "어두운 젊은 태양 역설" in the Korean version

arxiv.org (Global: 69^th place; Korean: 54^th place)

Feulner, Georg (2012). “The faint young Sun problem”. 《Reviews of Geophysics》 50 (2): RG2006. arXiv:1204.4449. Bibcode:2012RvGeo..50.2006F. doi:10.1029/2011RG000375. S2CID 119248267.

Baraffe, Isabelle; Homeier, Derek; Allard, France; Chabrier, Gilles (2015). “New evolutionary models for pre-main sequence and main sequence low-mass stars down to the hydrogen-burning limit”. 《Astronomy & Astrophysics》 577: A42. arXiv:1503.04107. Bibcode:2015A&A...577A..42B. doi:10.1051/0004-6361/201425481. S2CID 67825852.

Heller, René; Duda, Jan-Peter; Winkler, Max; Reitner, Joachim; Gizon, Laurent (December 2021). “Habitability of the early Earth: liquid water under a faint young Sun facilitated by strong tidal heating due to a closer Moon”. 《PalZ》 95 (4): 563–575. arXiv:2007.03423. Bibcode:2021PalZ...95..563H. doi:10.1007/s12542-021-00582-7. S2CID 244532427.

Mullen, Patrick D.; Gammie, Charles F. (October 2020). “A Magnetized, Moon-forming Giant Impact”. 《The Astrophysical Journal》 903 (1): L15. arXiv:2010.04798. Bibcode:2020ApJ...903L..15M. doi:10.3847/2041-8213/abbffd. S2CID 222291370..

Shaviv, N. J. (2003). “Toward a solution to the early faint Sun paradox: A lower cosmic ray flux from a stronger solar wind”. 《Journal of Geophysical Research》 108 (A12): 1437. arXiv:astro-ph/0306477. Bibcode:2003JGRA..108.1437S. doi:10.1029/2003JA009997. S2CID 11148141.

Minton, David; Malhotra, Renu (2007). “Assessing the Massive Young Sun Hypothesis to Solve the Warm Young Earth Puzzle”. 《The Astrophysical Journal》 660 (2): 1700–1706. arXiv:astro-ph/0612321. Bibcode:2007ApJ...660.1700M. doi:10.1086/514331. S2CID 14526617.

Gurumath, Shashanka R.; Hiremath, K. M.; Ramasubramanian, V.; Acharyya, Kinsuk (2022), 《A possible solution for the faint young Sun paradox: Clues from the exoplanetary data》, arXiv:2204.07515

Wood, Bernard (2005). “New mass-loss measurements from astrospheric Ly alpha absorption”. 《The Astrophysical Journal》 628 (2): L143–L146. arXiv:astro-ph/0506401. Bibcode:2005ApJ...628L.143W. doi:10.1086/432716. S2CID 7137741.

Wood, Bernard (2002). “Measured mass loss rates of solar-like stars as a function of age and activity”. 《The Astrophysical Journal》 574 (1): 412–425. arXiv:astro-ph/0203437. Bibcode:2002ApJ...574..412W. doi:10.1086/340797. S2CID 1500425.

Goldblatt, C.; Zahnle, K. J. (2011). “Clouds and the Faint Young Sun Paradox”. 《Climate of the Past》 6 (1): 203–220. arXiv:1102.3209. Bibcode:2011CliPa...7..203G. doi:10.5194/cp-7-203-2011. S2CID 54959670.

Krissansen-Totton, J.; Davies, R. (2013). “Investigation of cosmic ray–cloud connections using MISR”. 《Geophysical Research Letters》 40 (19): 5240–5245. arXiv:1311.1308. Bibcode:2013GeoRL..40.5240K. doi:10.1002/grl.50996. S2CID 119299932.

Křížek, Michal; Gueorguiev, Vesselin G.; Maeder, André (2022), “An Alternative Explanation of the Orbital Expansion of Titan and Other Bodies in the Solar System”, 《Gravitation and Cosmology》 28 (2): 122–132, arXiv:2201.05311, Bibcode:2022GrCo...28..122K, doi:10.1134/S0202289322020086, S2CID 245971372

Dumin, Yurii V. (2016), 《LOCAL HUBBLE EXPANSION: CURRENT STATE OF THE PROBLEM》, arXiv:1609.01793

Wordsworth, Robin D. (2016). “The Climate of Early Mars”. 《Annual Review of Earth and Planetary Sciences》 44: 381–408. arXiv:1606.02813. Bibcode:2016AREPS..44..381W. doi:10.1146/annurev-earth-060115-012355. S2CID 55266519.

Ramirez, Ramirez R.; Craddock, Robert A. (2018). “The geological and climatological case for a warmer and wetter early Mars.”. 《Nature Geoscience》 11 (4): 230–237. arXiv:1810.01974. Bibcode:2018NatGe..11..230R. doi:10.1038/s41561-018-0093-9. S2CID 118915357.

Wordsworth, Y.Kalugina; Lokshtanov, A.Vigasin; Ehlmann, J.Head; Sanders, H.Wang (2017). “Transient reducing greenhouse warming on early Mars”. 《Geophysical Research Letters》 44 (2): 665–671. arXiv:1610.09697. Bibcode:2017GeoRL..44..665W. doi:10.1002/2016GL071766. S2CID 5295225.

Ramirez, R. M.; Kopparapu, R.; Zugger, M. E.; Robinson, T. D.; Freedman, R.; Kasting, J. F. (2014). “Warming early Mars with CO2 and H2”. 《Nature Geoscience》 7 (1): 59–63. arXiv:1405.6701. Bibcode:2014NatGe...7...59R. doi:10.1038/ngeo2000. S2CID 118520121.

doi.org (Global: 2^nd place; Korean: 3^rd place)

dx.doi.org

Feulner, Georg (2012). “The faint young Sun problem”. 《Reviews of Geophysics》 50 (2): RG2006. arXiv:1204.4449. Bibcode:2012RvGeo..50.2006F. doi:10.1029/2011RG000375. S2CID 119248267.

Sagan, C.; Mullen, G. (1972). “Earth and Mars: Evolution of Atmospheres and Surface Temperatures”. 《Science》 177 (4043): 52–56. Bibcode:1972Sci...177...52S. doi:10.1126/science.177.4043.52. PMID 17756316. S2CID 12566286.

Abraham, Zulema; Iben, Icko (1971). “More Solar Models and Neutrino Fluxes”. 《The Astrophysical Journal》 170: 157. Bibcode:1971ApJ...170..157A. doi:10.1086/151197.

Kuhn, W. R.; Atreya, S. K (1979). “Ammonia photolysis and the greenhouse effect in the primordial atmosphere of the earth”. 《Icarus》 37 (1): 207–213. Bibcode:1979Icar...37..207K. doi:10.1016/0019-1035(79)90126-X. hdl:2027.42/23696.

Sagan, Carl; Chyba, Christopher (1997년 5월 23일). “The early faint sun paradox: organic shielding of ultraviolet-labile greenhouse gases”. 《Science》 276 (5316): 1217–1221. Bibcode:1997Sci...276.1217S. doi:10.1126/science.276.5316.1217. PMID 11536805.

Pavlov, Alexander; Brown, Lisa; Kasting, James (October 2001). “UV shielding of NH3 and O2 by organic hazes in the Archean atmosphere”. 《Journal of Geophysical Research: Planets》 106 (E10): 26267–23287. Bibcode:2001JGR...10623267P. doi:10.1029/2000JE001448.

Wolf, E. T.; Toon, O. B. (2010년 6월 4일). “Fractal Organic Hazes Provided an Ultraviolet Shield for Early Earth”. 《Science》 328 (5983): 1266–1268. Bibcode:2010Sci...328.1266W. doi:10.1126/science.1183260. PMID 20522772. S2CID 206524004.

Hart, M. H. (1978). “The evolution of the atmosphere of the EArth”. 《Icarus》 33 (1): 23–39. Bibcode:1978Icar...33...23H. doi:10.1016/0019-1035(78)90021-0.

Walker, James C. G. (June 1985). “Carbon dioxide on the early earth” (PDF). 《Origins of Life and Evolution of the Biosphere》 16 (2): 117–127. Bibcode:1985OrLi...16..117W. doi:10.1007/BF01809466. hdl:2027.42/43349. PMID 11542014. S2CID 206804461. 2010년 1월 30일에 확인함.

Pavlov, Alexander A.; Kasting, James F.; Brown, Lisa L.; Rages, Kathy A.; Freedman, Richard (May 2000). “Greenhouse warming by CH₄ in the atmosphere of early Earth”. 《Journal of Geophysical Research》 105 (E5): 11981–11990. Bibcode:2000JGR...10511981P. doi:10.1029/1999JE001134. PMID 11543544.

Berner, Robert; Lasaga, Antonio; Garrels, Robert (1983). “The Carbonate–Silicate Geochemical Cycle and its Effect on Atmospheric Carbon Dioxide over the Past 100 Million Years”. 《American Journal of Science》 283 (7): 641–683. Bibcode:1983AmJS..283..641B. doi:10.2475/ajs.283.7.641.

Kasting, J. F.; Ackerman, T. P. (1986). “Climate consequences of very high CO2 levels in the Earth's early atmosphere”. 《Science》 234 (4782): 1383–1385. Bibcode:1986Sci...234.1383K. doi:10.1126/science.11539665. PMID 11539665.

Sleep, N.H.; Zahnle, K (2001). “Carbon dioxide cycling and implications for climate on ancient Earth”. 《Journal of Geophysical Research: Planets》 106 (E1): 1373–1399. Bibcode:2001JGR...106.1373S. doi:10.1029/2000JE001247.

Rosing, Minik; Bird, Dennis K; Sleep, Norman; Bjerrum, Christian J. (2010). “No climate paradox under the faint early Sun.”. 《Nature》 464 (7289): 744–747. Bibcode:2010Natur.464..744R. doi:10.1038/nature08955. PMID 20360739. S2CID 205220182.

Kasting, James (2010). “Faint young Sun redux”. 《Nature》 464 (7289): 687–9. doi:10.1038/464687a. PMID 20360727. S2CID 4395659.

Caffe, M. W.; Hohenberg, C. M.; Swindle, T. D.; Goswami, J. N. (1987년 2월 1일). “Evidence in meteorites for an active early sun”. 《The Astrophysical Journal》 313: L31–L35. Bibcode:1987ApJ...313L..31C. doi:10.1086/184826. hdl:2060/19850018239.

Gaidos, Eric J.; Güdel, Manuel; Blake, Geoffrey A. (2000). “The faint young Sun paradox: An observational test of an alternative solar model” (PDF). 《Geophysical Research Letters》 27 (4): 501–504. Bibcode:2000GeoRL..27..501G. CiteSeerX 10.1.1.613.1511. doi:10.1029/1999GL010740. PMID 11543273. S2CID 15264566.

Svensmark, Henrik (2007). “Cosmoclimatology: a new theory emerges”. 《Astronomy & Geophysics》 48 (1): 14–28. Bibcode:2007A&G....48a..18S. doi:10.1111/j.1468-4004.2007.48118.x.

Irwin, R. P.; Howard, Alan; Craddock, Robert; Moore, Jeffrey (2005). “An Intense Terminal Epoch of Widespread Fluvial Activity on Early Mars: 2. Increased Runoff and Paleolake Development”. 《Journal of Geophysical Research》 110 (E12): E12S15. Bibcode:2005JGRE..11012S15I. doi:10.1029/2005JE002460.

Howard, Alan D.; Moore, Jeffrey M. (2005). “An intense terminal epoch of widespread fluvial activity on early Mars: 1. Valley network incision and associated deposits”. 《Journal of Geophysical Research》 110 (E12): E12S14. Bibcode:2005JGRE..11012S14H. doi:10.1029/2005JE002459.

Haberle, R.; Catling, D.; Carr, M; Zahnle, K (2017). 〈The Early Mars Climate System〉. 《The Atmosphere and Climate of Mars》. Cambridge, UK: Cambridge University Press. 526–568쪽. doi:10.1017/9781139060172.017. ISBN 9781139060172. S2CID 92991460.

Kasting, J. F. (1988). “Runaway and moist greenhouse atmospheres and the evolution of Earth and Venus”. 《Icarus》 74 (3): 472–494. Bibcode:1988Icar...74..472K. doi:10.1016/0019-1035(88)90116-9. PMID 11538226.

handle.net (Global: 102^nd place; Korean: 307^th place)

hdl.handle.net

harvard.edu (Global: 18^th place; Korean: 27^th place)

adsabs.harvard.edu

Feulner, Georg (2012). “The faint young Sun problem”. 《Reviews of Geophysics》 50 (2): RG2006. arXiv:1204.4449. Bibcode:2012RvGeo..50.2006F. doi:10.1029/2011RG000375. S2CID 119248267.

Abraham, Zulema; Iben, Icko (1971). “More Solar Models and Neutrino Fluxes”. 《The Astrophysical Journal》 170: 157. Bibcode:1971ApJ...170..157A. doi:10.1086/151197.

Hart, M. H. (1978). “The evolution of the atmosphere of the EArth”. 《Icarus》 33 (1): 23–39. Bibcode:1978Icar...33...23H. doi:10.1016/0019-1035(78)90021-0.

Svensmark, Henrik (2007). “Cosmoclimatology: a new theory emerges”. 《Astronomy & Geophysics》 48 (1): 14–28. Bibcode:2007A&G....48a..18S. doi:10.1111/j.1468-4004.2007.48118.x.

nrs.harvard.edu

semanticscholar.org (Global: 11^th place; Korean: 310^th place)

api.semanticscholar.org

Feulner, Georg (2012). “The faint young Sun problem”. 《Reviews of Geophysics》 50 (2): RG2006. arXiv:1204.4449. Bibcode:2012RvGeo..50.2006F. doi:10.1029/2011RG000375. S2CID 119248267.

Kasting, James (2010). “Faint young Sun redux”. 《Nature》 464 (7289): 687–9. doi:10.1038/464687a. PMID 20360727. S2CID 4395659.

어두운 젊은 태양 역설 (Korean Wikipedia)

archive.org (Global: 6^th place; Korean: 18^th place)

arxiv.org (Global: 69^th place; Korean: 54^th place)

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handle.net (Global: 102^nd place; Korean: 307^th place)

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harvard.edu (Global: 18^th place; Korean: 27^th place)

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nih.gov (Global: 4^th place; Korean: 4^th place)

ncbi.nlm.nih.gov

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semanticscholar.org (Global: 11^th place; Korean: 310^th place)

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skyandtelescope.org (Global: low place; Korean: low place)

umich.edu (Global: 459^th place; Korean: 446^th place)

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youtube.com (Global: 9^th place; Korean: 20^th place)

zenodo.org (Global: 621^st place; Korean: 732^nd place)

어두운 젊은 태양 역설 (Korean Wikipedia)

archive.org (Global: 6th place; Korean: 18th place)

arxiv.org (Global: 69th place; Korean: 54th place)

caltech.edu (Global: 887th place; Korean: 606th place)

authors.library.caltech.edu

doi.org (Global: 2nd place; Korean: 3rd place)

dx.doi.org

handle.net (Global: 102nd place; Korean: 307th place)

hdl.handle.net

harvard.edu (Global: 18th place; Korean: 27th place)

adsabs.harvard.edu

nrs.harvard.edu

nih.gov (Global: 4th place; Korean: 4th place)

ncbi.nlm.nih.gov

psu.edu (Global: 207th place; Korean: 220th place)

citeseerx.ist.psu.edu

semanticscholar.org (Global: 11th place; Korean: 310th place)

api.semanticscholar.org

skyandtelescope.org (Global: low place; Korean: low place)

umich.edu (Global: 459th place; Korean: 446th place)

deepblue.lib.umich.edu

youtube.com (Global: 9th place; Korean: 20th place)

zenodo.org (Global: 621st place; Korean: 732nd place)

archive.org (Global: 6^th place; Korean: 18^th place)

arxiv.org (Global: 69^th place; Korean: 54^th place)

caltech.edu (Global: 887^th place; Korean: 606^th place)

doi.org (Global: 2^nd place; Korean: 3^rd place)

handle.net (Global: 102^nd place; Korean: 307^th place)

harvard.edu (Global: 18^th place; Korean: 27^th place)

nih.gov (Global: 4^th place; Korean: 4^th place)

psu.edu (Global: 207^th place; Korean: 220^th place)

semanticscholar.org (Global: 11^th place; Korean: 310^th place)

umich.edu (Global: 459^th place; Korean: 446^th place)

youtube.com (Global: 9^th place; Korean: 20^th place)

zenodo.org (Global: 621^st place; Korean: 732^nd place)