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Paradox slabého mladého Slunce (Czech Wikipedia)

Analysis of information sources in references of the Wikipedia article "Paradox slabého mladého Slunce" in Czech language version.

refsWebsite
Global rank Czech rank
11doi.org
2nd place
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6arxiv.org
69th place
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2harvard.edu
18th place
99th place
1science.org
1,160th place
346th place
1umich.edu
459th place
340th place
1phys.org
1,283rd place
26th place
1archives-ouvertes.fr
1,031st place
3,543rd place
1sciencedirect.com
149th place
80th place
1cornell.edu
332nd place
821st place
1nasa.gov
75th place
115th place
1nust.ac.zw
low place
low place
1web.archive.org
1st place
1st place

archives-ouvertes.fr

hal.archives-ouvertes.fr

  • CHARNAY, Benjamin; WOLF, Eric T.; MARTY, Bernard; FORGET, François. Is the Faint Young Sun Problem for Earth Solved?. S. 90. Space Science Reviews [online]. 2020-08. Roč. 216, čís. 5, s. 90. Dostupné online. doi:10.1007/s11214-020-00711-9. (anglicky) 

arxiv.org

  • MARTY, Bernard; ZIMMERMANN, Laurent; PUJOL, Magali; BURGESS, Ray; PHILIPPOT, Pascal. Nitrogen Isotopic Composition and Density of the Archean Atmosphere. S. 101–104. Science [online]. 2013-10-04. Roč. 342, čís. 6154, s. 101–104. Dostupné online. doi:10.1126/science.1240971. (anglicky) 
  • HELLER, René; DUDA, Jan-Peter; WINKLER, Max; REITNER, Joachim; GIZON, Laurent. Habitability of the early Earth: Liquid water under a faint young Sun facilitated by strong tidal heating due to a nearby Moon. arxiv.org [online]. 2020-07-07. Dostupné online. doi:10.31223/osf.io/9nrwh. (anglicky) 
  • SHAVIV, Nir J. Toward a solution to the early faint Sun paradox: A lower cosmic ray flux from a stronger solar wind. S. 1437. Journal of Geophysical Research [online]. 2003. Roč. 108, čís. A12, s. 1437. Dostupné online. doi:10.1029/2003JA009997. (anglicky) 
  • MINTON, David A.; MALHOTRA, Renu. Assessing the Massive Young Sun Hypothesis to Solve the Warm Young Earth Puzzle. S. 1700–1706. The Astrophysical Journal [online]. 2007-05-10. Roč. 660, čís. 2, s. 1700–1706. Dostupné online. doi:10.1086/514331. (anglicky) 
  • MARTENS, Petrus C. The Faint Young Sun and Faint Young Stars Paradox. S. 350–355. Proceedings of the International Astronomical Union [online]. 2016-10. Roč. 12, čís. S328, s. 350–355. Dostupné online. doi:10.1017/S1743921317004331. (anglicky) 
  • WOOD, Suzannah R.; MUSSACK, Katie; GUZIK, Joyce A. Solar Models with Dynamic Screening and Early Mass Loss Tested by Helioseismic, Astrophysical, and Planetary Constraints. S. 111. Solar Physics [online]. 2018-07. Roč. 293, čís. 7, s. 111. Dostupné online. doi:10.1007/s11207-018-1334-1. (anglicky) 

cornell.edu

curious.astro.cornell.edu

  • SCHARRINGHAUSEN, Britt. Is the Moon moving away from the Earth? When was this discovered? (Intermediate) [online]. curious.astro.cornell.edu, rev. 2019-01-28 [cit. 2021-11-16]. Dostupné online. (anglicky) 

doi.org

  • SAGAN, Carl; MULLEN, George. Earth and Mars: Evolution of Atmospheres and Surface Temperatures. S. 52–56. Science [online]. 1972-07-07. Roč. 177, čís. 4043, s. 52–56. Dostupné online. doi:10.1126/science.177.4043.52. (anglicky) 
  • WALKER, James C. G. Carbon dioxide on the early earth. S. 117–127. Origins of Life and Evolution of the Biosphere [online]. 1985-06. Roč. 16, čís. 2, s. 117–127. Dostupné online. doi:10.1007/BF01809466. (anglicky) 
  • MARTY, Bernard; ZIMMERMANN, Laurent; PUJOL, Magali; BURGESS, Ray; PHILIPPOT, Pascal. Nitrogen Isotopic Composition and Density of the Archean Atmosphere. S. 101–104. Science [online]. 2013-10-04. Roč. 342, čís. 6154, s. 101–104. Dostupné online. doi:10.1126/science.1240971. (anglicky) 
  • CHARNAY, Benjamin; WOLF, Eric T.; MARTY, Bernard; FORGET, François. Is the Faint Young Sun Problem for Earth Solved?. S. 90. Space Science Reviews [online]. 2020-08. Roč. 216, čís. 5, s. 90. Dostupné online. doi:10.1007/s11214-020-00711-9. (anglicky) 
  • AREVALO, Ricardo; MCDONOUGH, William F.; LUONG, Mario. The K/U ratio of the silicate Earth: Insights into mantle composition, structure and thermal evolution. S. 361–369. Earth and Planetary Science Letters [online]. 2009-02. Roč. 278, čís. 3–4, s. 361–369. Dostupné online. doi:10.1016/j.epsl.2008.12.023. (anglicky) 
  • HELLER, René; DUDA, Jan-Peter; WINKLER, Max; REITNER, Joachim; GIZON, Laurent. Habitability of the early Earth: Liquid water under a faint young Sun facilitated by strong tidal heating due to a nearby Moon. arxiv.org [online]. 2020-07-07. Dostupné online. doi:10.31223/osf.io/9nrwh. (anglicky) 
  • CAFFE, M. W.; HOHENBERG, C. M.; SWINDLE, T. D.; GOSWAMI, J. N. Evidence in meteorites for an active early sun. S. L31. The Astrophysical Journal [online]. 1987-02. Roč. 313, s. L31. Dostupné online. doi:10.1086/184826. (anglicky) 
  • SHAVIV, Nir J. Toward a solution to the early faint Sun paradox: A lower cosmic ray flux from a stronger solar wind. S. 1437. Journal of Geophysical Research [online]. 2003. Roč. 108, čís. A12, s. 1437. Dostupné online. doi:10.1029/2003JA009997. (anglicky) 
  • MINTON, David A.; MALHOTRA, Renu. Assessing the Massive Young Sun Hypothesis to Solve the Warm Young Earth Puzzle. S. 1700–1706. The Astrophysical Journal [online]. 2007-05-10. Roč. 660, čís. 2, s. 1700–1706. Dostupné online. doi:10.1086/514331. (anglicky) 
  • MARTENS, Petrus C. The Faint Young Sun and Faint Young Stars Paradox. S. 350–355. Proceedings of the International Astronomical Union [online]. 2016-10. Roč. 12, čís. S328, s. 350–355. Dostupné online. doi:10.1017/S1743921317004331. (anglicky) 
  • WOOD, Suzannah R.; MUSSACK, Katie; GUZIK, Joyce A. Solar Models with Dynamic Screening and Early Mass Loss Tested by Helioseismic, Astrophysical, and Planetary Constraints. S. 111. Solar Physics [online]. 2018-07. Roč. 293, čís. 7, s. 111. Dostupné online. doi:10.1007/s11207-018-1334-1. (anglicky) 

harvard.edu

ui.adsabs.harvard.edu

  • MARTENS, P. C. The Faint Young Sun Paradox Mitigated by a Sustained Initial Massive Solar Wind. S. SH44A–08. ui.adsabs.harvard.edu [online]. 2018-12-01. Roč. 2018, s. SH44A–08. Dostupné online. Bibcode 2018AGUFMSH44A..08M. (anglicky) 

adsabs.harvard.edu

  • MARTENS, P. C. The Faint Young Sun Paradox Mitigated by a Sustained Initial Massive Solar Wind. S. SH44A–08. ui.adsabs.harvard.edu [online]. 2018-12-01. Roč. 2018, s. SH44A–08. Dostupné online. Bibcode 2018AGUFMSH44A..08M. (anglicky) 

nasa.gov

ntrs.nasa.gov

  • CAFFE, M. W.; HOHENBERG, C. M.; SWINDLE, T. D.; GOSWAMI, J. N. Evidence in meteorites for an active early sun. S. L31. The Astrophysical Journal [online]. 1987-02. Roč. 313, s. L31. Dostupné online. doi:10.1086/184826. (anglicky) 

nust.ac.zw

ir.nust.ac.zw

phys.org

  • BALMA, Chris. How ancient microbes created massive ore deposits, set the stage for early life on Earth. phys.org [online]. 2019-12-02 [cit. 2021-11-16]. Dostupné online. (anglicky) 

science.org

sciencedirect.com

  • AREVALO, Ricardo; MCDONOUGH, William F.; LUONG, Mario. The K/U ratio of the silicate Earth: Insights into mantle composition, structure and thermal evolution. S. 361–369. Earth and Planetary Science Letters [online]. 2009-02. Roč. 278, čís. 3–4, s. 361–369. Dostupné online. doi:10.1016/j.epsl.2008.12.023. (anglicky) 

umich.edu

deepblue.lib.umich.edu

  • WALKER, James C. G. Carbon dioxide on the early earth. S. 117–127. Origins of Life and Evolution of the Biosphere [online]. 1985-06. Roč. 16, čís. 2, s. 117–127. Dostupné online. doi:10.1007/BF01809466. (anglicky) 

web.archive.org