Powstanie i ewolucja Układu Słonecznego (Polish Wikipedia)

Analysis of information sources in references of the Wikipedia article "Powstanie i ewolucja Układu Słonecznego" in Polish language version.

refsWebsite

Global rank Polish rank

17doi.org

2^nd place

6^th place

14harvard.edu

18^th place

140^th place

5web.archive.org

1^st place

4arxiv.org

69^th place

224^th place

3sciencemag.org

857^th place

738^th place

2iop.org

1,725^th place

1,065^th place

2caltech.edu

887^th place

766^th place

1eso.org

3,034^th place

1,600^th place

1merriam-webster.com

209^th place

472^nd place

1newscientist.com

774^th place

601^st place

1webcitation.org

24^th place

107^th place

1arizona.edu

1,592^nd place

2,683^rd place

1worldcat.org

5^th place

2^nd place

1sciam.com

6,119^th place

low place

1planetary.org

5,100^th place

4,777^th place

1swri.edu

low place

6,665^th place

1nature.com

234^th place

204^th place

1ciw.edu

low place

1mit.edu

415^th place

845^th place

1wisc.edu

1,045^th place

1,227^th place

1books.google.com

3^rd place

27^th place

arizona.edu

atropos.as.arizona.edu

Ann Zabludoff: Lecture 13: The Nebular Theory of the origin of the Solar System. University of Arizona, wiosna 2003. [dostęp 2008-05-19]. [zarchiwizowane z tego adresu (2011-08-22)].

arxiv.org

Charles H. Lineweaver. An Estimate of the Age Distribution of Terrestrial Planets in the Universe: Quantifying Metallicity as a Selection Effect. „Icarus”. 151, s. 307–313, 2001. arXiv:astro-ph/0012399. (ang.).
Sukyoung Yi, Pierre Demarque, Yong-Cheol Kim, Young-Wook Lee, Chang H. Ree, Thibault Lejeune, Sydney Barnes. Toward Better Age Estimates for Stellar Populations: The $Y^{2}$ Isochrones for Solar Mixture. „Astrophysical Journal Supplement”. 136, s. 417, 2001. arXiv:astro-ph/0104292. Bibcode: 2001ApJS..136..417Y. (ang.).
Harold F. Levison, Alessandro Morbidelli, Crista Van Laerhoven et al. Origin of the Structure of the Kuiper Belt during a Dynamical Instability in the Orbits of Uranus and Neptune. „arXiv + Icarus”. 196 (1), s. 258–273, 2007. DOI: 10.1016/j.icarus.2007.11.035. arXiv:0712.0553. Bibcode: 2008Icar..196..258L. (ang.).
Alessandro Morbidelli. Origin and dynamical evolution of comets and their reservoirs. „arXiv”, 2008-02-03. arXiv:astro-ph/0512256.

books.google.com

Earth’s Place in the Solar System. W: Gary Ernst Wallace: Earth Systems: Processes and Issues. Cambridge University Press, 2000, s. 45–58. [dostęp 2008-04-04].

caltech.edu

gps.caltech.edu

Mike Brown (California Institute of Technology): Dysnomia, the moon of Eris. [dostęp 2008-05-21].
Jean-Marc Petit, Alessandro Morbidelli. The Primordial Excitation and Clearing of the Asteroid Belt. „Icarus”, s. 338–347, 2001. DOI: 10.1006/icar.2001.6702.

ciw.edu

home.dtm.ciw.edu

Scott S. Sheppard (Carnegie Institution of Washington): The Jupiter Satellite and Moon Page. [w:] Personal web page [on-line]. [dostęp 2014-05-10]. [zarchiwizowane z tego adresu (2018-01-28)].

doi.org

M.M. Woolfson. Rotation in the Solar System. „Philosophical Transactions of the Royal Society of London”. 27 listopada 1984. 1524. s. 5–18. DOI: 10.1098/rsta.1984.0078. Bibcode: 1984RSPTA.313....5W. (ang.).
J. Jeff Hester, Steven J. Desch, Kevin R. Healy, Laurie A. Leshin. The Cradle of the Solar System. „Science”. 304 (5674), s. 1116–1117, 2004-05-21. DOI: 10.1126/science.1096808. (ang.).
Martin Bizzarro, David Ulfbeck, Anne Trinquier, Kristine Thrane, James N. Connelly, Bradley S. Meyer. Evidence for a Late Supernova Injection of ⁶⁰Fe into the Protoplanetary Disk. „Science”. 316 (5828), s. 1178–1181, 2007. DOI: 10.1126/science.1141040. (ang.).
Pierre Haenecour, Xuchao Zhao, Christine Floss, Yangting Lin, Ernst Zinner. First Laboratory Observation of Silica Grains from Core Collapse Supernova. „The Astrophysical Journal Letters”. 768 (1). iopscience.iop.org. DOI: 10.1088/2041-8205/768/1/L17. [dostęp 2013-04-22]. (ang.).
J.J. Rawal. Further Considerations on Contracting Solar Nebula. „Earth, Moon, and Planets”. 34 (1), s. 93–100, 1986. Springer Netherlands. DOI: 10.1007/BF00054038. ISSN 0167-9295. (ang.).
Thierry Montmerle, Jean-Charles Augereau, Marc Chaussidon. Solar System Formation and Early Evolution: the First 100 Million Years. „Earth, Moon, and Planets”. 98 (1–4), s. 39–95, 2006. Spinger. DOI: 10.1007/s11038-006-9087-5. Bibcode: 2006EM&P...98...39M. (ang.).
Jane S. Greaves. Disks Around Stars and the Growth of Planetary Systems. „Science”. 307 (5706), s. 68–71, 2005. DOI: 10.1126/science.1101979. (ang.).
A.P. Boss, R.H. Durisen. Chondrule-forming Shock Fronts in the Solar Nebula: A Possible Unified Scenario for Planet and Chondrite Formation. „The Astrophysical Journal”. 621, s. L137–L140, 2005. DOI: 10.1086/429160. (ang.).
E.W. Thommes, M.J. Duncan, H.F. Levison. The Formation of Uranus and Neptune among Jupiter and Saturn. „Astronomical Journal”. 123 (5), s. 2862–2883, 2002. DOI: 10.1086/339975. Bibcode: 2002AJ....123.2862T.
Jean-Marc Petit, Alessandro Morbidelli. The Primordial Excitation and Clearing of the Asteroid Belt. „Icarus”, s. 338–347, 2001. DOI: 10.1006/icar.2001.6702.
Junko Kominami, Shigeru Ida. The Effect of Tidal Interaction with a Gas Disk on Formation of Terrestrial Planets. „Icarus”. 157 (1), s. 43–56, 2001. DOI: 10.1006/icar.2001.6811. Bibcode: 2002Icar..157...43K. (ang.).
Sean C. Solomon. Mercury: the enigmatic innermost planet. „Earth and Planetary Science Letters”, s. 441–455, 2003. DOI: 10.1016/S0012-821X(03)00546-6.
William F. Bottke, Daniel D. Durda, David Nesvorny et al. Linking the collisional history of the main asteroid belt to its dynamical excitation and depletion. „Icarus”, s. 63–94, 2005. DOI: 10.1016/j.icarus.2005.05.017.
R. Gomes, H.F. Levison, K. Tsiganis, A. Morbidelli. Origin of the cataclysmic Late Heavy Bombardment period of the terrestrial planets. „Nature”, s. 466, 2005. DOI: 10.1038/nature03676.
Harold F. Levison, Alessandro Morbidelli, Crista Van Laerhoven et al. Origin of the Structure of the Kuiper Belt during a Dynamical Instability in the Orbits of Uranus and Neptune. „arXiv + Icarus”. 196 (1), s. 258–273, 2007. DOI: 10.1016/j.icarus.2007.11.035. arXiv:0712.0553. Bibcode: 2008Icar..196..258L. (ang.).
N. Takato, S.J. Bus et al. Detection of a Deep 3-μm Absorption Feature in the Spectrum of Amalthea (JV). „Science”. 306 (5705), s. 2224–2227, 2004. DOI: 10.1126/science.1105427. Bibcode: 2004Sci...306.2224T.
Gerald Jay Sussman, Jack Wisdom. Numerical evidence that the motion of Pluto is chaotic. „Science”, s. 433–437, 1988. DOI: 10.1126/science.241.4864.433. Cytat: Our numerical model indicates that the motion of Pluto is chaotic. The largest Lyapunov exponent is about 10^−7.3year⁻¹. Thus the efolding time for the divergence of trajectories is about 20 million years. It would not have been surprising to discover an instability with characteristic time of the order of the age of the solar system because such an instability would not yet have had enough time to produce apparent damage.

eso.org

29 maja 2013 r. ogłoszono wyniki badań gromady kulistej gwiazd NGC 6752 za pomocą Very Large Telescope, według których konieczna jest weryfikacja dotychczasowych modeli ewolucji gwiazd, w tym Słońca (Informacja na stronie ESO).

harvard.edu

adsabs.harvard.edu

M.M. Woolfson. Rotation in the Solar System. „Philosophical Transactions of the Royal Society of London”. 27 listopada 1984. 1524. s. 5–18. DOI: 10.1098/rsta.1984.0078. Bibcode: 1984RSPTA.313....5W. (ang.).
The chemical composition of the pre-solar nebula, [w:] W.M.W.M. Irvine W.M.W.M., Cometary Exploration, „Proceedings of the International Conference, Budapest, Hungary, November 15-19, 1982. Volume 1”, 1983, s. 3–12, Bibcode: 1983coex....1....3I .
Thierry Montmerle, Jean-Charles Augereau, Marc Chaussidon. Solar System Formation and Early Evolution: the First 100 Million Years. „Earth, Moon, and Planets”. 98 (1–4), s. 39–95, 2006. Spinger. DOI: 10.1007/s11038-006-9087-5. Bibcode: 2006EM&P...98...39M. (ang.).
Sukyoung Yi, Pierre Demarque, Yong-Cheol Kim, Young-Wook Lee, Chang H. Ree, Thibault Lejeune, Sydney Barnes. Toward Better Age Estimates for Stellar Populations: The $Y^{2}$ Isochrones for Solar Mixture. „Astrophysical Journal Supplement”. 136, s. 417, 2001. arXiv:astro-ph/0104292. Bibcode: 2001ApJS..136..417Y. (ang.).
P. Goldreich, W.R. Ward. The Formation of Planetesimals. „Astrophysical Journal”. 183, s. 1051, 1973. Bibcode: 1973ApJ...183.1051G. (ang.).
E.W. Thommes, M.J. Duncan, H.F. Levison. The Formation of Uranus and Neptune among Jupiter and Saturn. „Astronomical Journal”. 123 (5), s. 2862–2883, 2002. DOI: 10.1086/339975. Bibcode: 2002AJ....123.2862T.
B.G. Elmegreen. On the disruption of a protoplanetary disc nebula by a T Tauri like solar wind. „Astronomy & Astrophysics”. 80 (1), s. 77, 1979. Bibcode: 1979A&A....80...77E.
Junko Kominami, Shigeru Ida. The Effect of Tidal Interaction with a Gas Disk on Formation of Terrestrial Planets. „Icarus”. 157 (1), s. 43–56, 2001. DOI: 10.1006/icar.2001.6811. Bibcode: 2002Icar..157...43K. (ang.).
Sean C. Solomon. Mercury: the enigmatic innermost planet. „Earth and Planetary Science Letters”, s. 441–455, 2003. DOI: 10.1016/S0012-821X(03)00546-6.
Harold F. Levison, Alessandro Morbidelli, Crista Van Laerhoven et al. Origin of the Structure of the Kuiper Belt during a Dynamical Instability in the Orbits of Uranus and Neptune. „arXiv + Icarus”. 196 (1), s. 258–273, 2007. DOI: 10.1016/j.icarus.2007.11.035. arXiv:0712.0553. Bibcode: 2008Icar..196..258L. (ang.).
N. Takato, S.J. Bus et al. Detection of a Deep 3-μm Absorption Feature in the Spectrum of Amalthea (JV). „Science”. 306 (5705), s. 2224–2227, 2004. DOI: 10.1126/science.1105427. Bibcode: 2004Sci...306.2224T.
J. Laskar. Large-scale chaos in the solar system. „Astronomy and Astrophysics”. 287 (1), s. L9–L12, 1994. Bibcode: 1994A&A...287L...9L.
O. Neron de Surgy, J. Laskar. On the long term evolution of the spin of the Earth. „Astronomy and Astrophysics”, s. 975–989, luty 1997. Bibcode: 1997A%26A...318..975N.

articles.adsabs.harvard.edu

Investigation of the Physical Properties of Protoplanetary Disks around T Tauri Stars by a High-resolution Imaging Survey at lambda = 2 mm. W: M. Momose, Y. Kitamura, S. Yokogawa, R. Kawabe, M. Tamura, S. Ida: The Proceedings of the IAU 8th Asian-Pacific Regional Meeting, Volume I. Wyd. 289. Astronomical Society of the Pacific Conference Series, 2003, s. 85. (ang.).

iop.org

iopscience.iop.org

Pierre Haenecour, Xuchao Zhao, Christine Floss, Yangting Lin, Ernst Zinner. First Laboratory Observation of Silica Grains from Core Collapse Supernova. „The Astrophysical Journal Letters”. 768 (1). iopscience.iop.org. DOI: 10.1088/2041-8205/768/1/L17. [dostęp 2013-04-22]. (ang.).
Deborah L. Padgett, Wolfgang Brandner, Karl R. Stapelfeldt et al. Hubble Space Telescope/NICMOS Imaging of Disks and Envelopes around Very Young Stars. „The Astronomical Journal”. 117, s. 1490–1504, marzec 1999. (ang.).

merriam-webster.com

Solar system. [w:] Merriam Webster Online Dictionary [on-line]. 2008. [dostęp 2008-05-19]. (ang.).

mit.edu

groups.csail.mit.edu

Gerald Jay Sussman, Jack Wisdom. Numerical evidence that the motion of Pluto is chaotic. „Science”, s. 433–437, 1988. DOI: 10.1126/science.241.4864.433. Cytat: Our numerical model indicates that the motion of Pluto is chaotic. The largest Lyapunov exponent is about 10^−7.3year⁻¹. Thus the efolding time for the divergence of trajectories is about 20 million years. It would not have been surprising to discover an instability with characteristic time of the order of the age of the solar system because such an instability would not yet have had enough time to produce apparent damage.

nature.com

R. Gomes, H.F. Levison, K. Tsiganis, A. Morbidelli. Origin of the cataclysmic Late Heavy Bombardment period of the terrestrial planets. „Nature”, s. 466, 2005. DOI: 10.1038/nature03676.

newscientist.com

space.newscientist.com

Nigel Henbest: Birth of the planets: The Earth and its fellow planets may be survivors from a time when planets ricocheted around the Sun like ball bearings on a pinball table. [w:] New Scientist [on-line]. 1991. [zarchiwizowane z tego adresu (2008-10-08)]. (ang.).

planetary.org

Emily Lakdawalla: Stardust Results in a Nutshell: The Solar Nebula was Like a Blender. The Planetary Society, 2006-10-13. [dostęp 2014-07-31]. [zarchiwizowane z tego adresu (2012-03-18)].

sciam.com

Douglas N.C. Lin. The Chaotic Genesis of Planets. „Scientific American”. 298 (5), s. 50–59, 2008. [zarchiwizowane z adresu 2008-11-19]. (ang.).

sciencemag.org

J. Jeff Hester, Steven J. Desch, Kevin R. Healy, Laurie A. Leshin. The Cradle of the Solar System. „Science”. 304 (5674), s. 1116–1117, 2004-05-21. DOI: 10.1126/science.1096808. (ang.).
Martin Bizzarro, David Ulfbeck, Anne Trinquier, Kristine Thrane, James N. Connelly, Bradley S. Meyer. Evidence for a Late Supernova Injection of ⁶⁰Fe into the Protoplanetary Disk. „Science”. 316 (5828), s. 1178–1181, 2007. DOI: 10.1126/science.1141040. (ang.).
Jane S. Greaves. Disks Around Stars and the Growth of Planetary Systems. „Science”. 307 (5706), s. 68–71, 2005. DOI: 10.1126/science.1101979. (ang.).

swri.edu

boulder.swri.edu

William F. Bottke, Daniel D. Durda, David Nesvorny et al. Linking the collisional history of the main asteroid belt to its dynamical excitation and depletion. „Icarus”, s. 63–94, 2005. DOI: 10.1016/j.icarus.2005.05.017.

web.archive.org

Nigel Henbest: Birth of the planets: The Earth and its fellow planets may be survivors from a time when planets ricocheted around the Sun like ball bearings on a pinball table. [w:] New Scientist [on-line]. 1991. [zarchiwizowane z tego adresu (2008-10-08)]. (ang.).
J.J. Rawal. Further Considerations on Contracting Solar Nebula. „Earth, Moon, and Planets”. 34 (1), s. 93–100, 1986. Springer Netherlands. DOI: 10.1007/BF00054038. ISSN 0167-9295. (ang.).
Douglas N.C. Lin. The Chaotic Genesis of Planets. „Scientific American”. 298 (5), s. 50–59, 2008. [zarchiwizowane z adresu 2008-11-19]. (ang.).
Emily Lakdawalla: Stardust Results in a Nutshell: The Solar Nebula was Like a Blender. The Planetary Society, 2006-10-13. [dostęp 2014-07-31]. [zarchiwizowane z tego adresu (2012-03-18)].
Scott S. Sheppard (Carnegie Institution of Washington): The Jupiter Satellite and Moon Page. [w:] Personal web page [on-line]. [dostęp 2014-05-10]. [zarchiwizowane z tego adresu (2018-01-28)].

webcitation.org

Ann Zabludoff: Lecture 13: The Nebular Theory of the origin of the Solar System. University of Arizona, wiosna 2003. [dostęp 2008-05-19]. [zarchiwizowane z tego adresu (2011-08-22)].

wisc.edu

geology.wisc.edu

Simon A. Wilde, John W. Valley, William H. Peck, Colin M. Graham. Evidence from detrital zircons for the existence of continental crust and oceans on the Earth 4.4 Gyr ago. „Nature”. 409. s. 175–178. (ang.).

worldcat.org

J.J. Rawal. Further Considerations on Contracting Solar Nebula. „Earth, Moon, and Planets”. 34 (1), s. 93–100, 1986. Springer Netherlands. DOI: 10.1007/BF00054038. ISSN 0167-9295. (ang.).