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{{short description|French astronomer (1824–1907)}}
[[Image:Pierre Janssen.jpg|thumb|right|Jules Janssen]]
{{For|the Belgian footballer|Pier Janssen}}
[[Image:La France Observatoire.jpg|thumb|right|Photo taken by Janssen, from the [[Meudon]] observatory, of [[Charles Renard|Renard]] and [[Arthur Krebs|Krebs']] ''La France'' dirigible (1885)]]
{{Use dmy dates|date=August 2017}}
[[Image:Jean Jacques Henner - Jules Janssen Orsay.jpg|right|upright|thumb|Portrait of Janssen by [[Jean-Jacques Henner]]]]
{{Use British English|date=March 2017}}
'''Pierre Jules César Janssen''' (22 February 1824 – 23 December 1907), also known as '''Jules Janssen''', was a French [[astronomy|astronomer]] who, along with the English scientist [[Joseph Norman Lockyer]], is credited with discovering the gaseous nature of the solar chromosphere, and with some justification the element [[helium]].
[[File:Jules Janssen.png|thumb|200px|Jules Janssen; photograph by [[Nadar]] (date unknown)]]
[[File:La France Observatoire.jpg|thumb|Photo taken by Janssen, from the [[Meudon]] observatory, of [[Charles Renard|Renard]] and [[Arthur Krebs|Krebs']] [[La France (airship)|''La France'']] dirigible (1885)]]
'''Pierre Jules César Janssen''' (22 February 1824 23 December 1907), usually known as '''Jules Janssen''', was a French [[astronomer]] who, along with English scientist [[Joseph Norman Lockyer]], is credited with discovering the gaseous nature of the solar [[chromosphere]], but there is no justification for the conclusion that he deserves credit for the co-discovery of the element [[helium]].


==Life, work, and interests==
==Life, work, and interests==
Janssen was born in Paris (During [[Bourbon Restoration in France]]) into a cultivated family. His father, [[:fr:César Antoine Janssen|César Antoine Janssen]] (born in Paris, 1780 – 1860) was a well known [[clarinet]]tist from Dutch/Belgian descent (his father, Christianus Janssen, emigrated from [[Walloon Brabant]] to Paris). His mother Pauline Marie Le Moyne (1789 – 1871) was a daughter of the architect Paul Guillaume Le Moyne.<ref>{{Cite book|title=Jules Janssen (1824–1907): From ophthalmology to astronomy|author=Amalric, Pierre|date=1992}}</ref>
Janssen was born in Paris and studied [[mathematics]] and [[physics]] at the faculty of sciences. He taught at the [[Lycée Charlemagne]] in 1853, and in the school of [[architecture]] 1865 &ndash; 1871, but his energies were mainly devoted to various scientific missions entrusted to him. Thus in 1857 he went to Peru in order to determine the magnetic [[equator]]; in 1861 &ndash; 1862 and 1864, he studied [[Telluric contamination|telluric absorption]] in the solar spectrum in Italy and Switzerland; in 1867 he carried out optical and magnetic experiments at the Azores; he successfully observed both [[transit of Venus|transits of Venus]], that of 1874 in Japan, that of 1882 at [[Oran]] in Algeria; and he took part in a long series of solar eclipse-expeditions, e.g. to [[Trani]] (1867), [[Guntur]] (1868), [[Algiers]] (1870), Siam (1875), the Caroline Islands (1883), and to Alcosebre in Spain (1905). To see the eclipse of 1870 he escaped from besieged Paris in a balloon (that eclipse was obscured by cloud cover, however).


Pierre Janssen studied [[mathematics]] and [[physics]] at the faculty of sciences. He taught at the [[Lycée Charlemagne]] in 1853, and in the school of [[architecture]] 1865 1871, but his energies were mainly devoted to various scientific missions entrusted to him. Thus in 1857 he went to Peru in order to determine the magnetic [[equator]]; in 1861–1862 and 1864, he studied [[Telluric contamination|telluric absorption]] in the solar spectrum in Italy and Switzerland; in 1867 he carried out optical and magnetic experiments at the Azores; he successfully observed both [[transit of Venus|transits of Venus]], that of 1874 in Japan, that of 1882 at [[Oran]] in Algeria; and he took part in a long series of solar eclipse-expeditions, e.g. to [[Trani, Apulia|Trani]], Italy (1867), [[Guntur]], India (1868), [[Algiers]] (1870), Siam (1875), the [[Caroline Islands]] (1883), and to [[Alcossebre]] in Spain (1905). To see the eclipse of 1870, he escaped from the [[Siege of Paris (1870–71)|Siege of Paris]] in a balloon.<ref name="Chisholm 1911, p. 155">{{EB1911|inline=1 |wstitle=Janssen, Pierre Jules César |volume=16 |page=155}}</ref> Unfortunately the eclipse was obscured from him by cloud.<ref>{{Cite web|last=Espenak|first=Fred|title=Chronology of Discoveries about the Sun|url=http://www.mreclipse.com/Totality2/TotalityApH.html|url-status=live|archive-url=https://web.archive.org/web/20201019152942/http://www.mreclipse.com/Totality2/TotalityApH.html|archive-date=19 October 2020|access-date=6 November 2020|website=Mr. Eclipse}}</ref>
==Discovery of helium==
In 1868 Janssen discovered how to observe [[solar prominence]]s without an [[eclipse]]. While observing the [[solar eclipse of August 18, 1868]], at [[Guntur]], [[Madras State]] (now in [[Andhra Pradesh]]), British India, he noticed bright lines in the spectrum of the chromosphere, showing that the chromosphere is gaseous. Present in the [[spectroscopy|spectrum]] of the Sun, though not immediately noticed or commented upon, was a bright yellow line later measured to have a [[wavelength]] of 587.49&nbsp;nm. This was the first observation of this particular spectral line, and one possible source for it was an element not yet discovered on the earth. From the brightness of the spectral lines, Janssen realized that the chromospheric spectrum could be observed even without an eclipse, and he proceeded to do so.


In the year 1874, Janssen invented the [[Janssen revolver|Revolver of Janssen]] or Photographic Revolver, instrument that originated the [[chronophotography]]. Later this invention was of great use for researchers like [[Étienne-Jules Marey|Etienne Jules Marey]] to carry out exhibitions and inventions.
On 20 October of the same year, [[Joseph Norman Lockyer]] in England set up a new, relatively powerful [[Optical spectrometer|spectroscope]]. He also observed the emission spectrum of the chromosphere, including the same yellow line. Within a few years, he worked with a chemist and they concluded that it could be caused by an unknown element, after unsuccessfully testing to see if it were some new type of hydrogen. This was the first time a chemical element was discovered on an extraterrestrial body before being found on the earth. Lockyer and the English chemist [[Edward Frankland]] named the element with the Greek word for the Sun, ἥλιος (''helios'').<ref>''Oxford English Dictionary'' (1989), s.v. "helium". Retrieved 16 December 2006, from Oxford English Dictionary Online. Also, from quotation there: Thomson, W. (1872). ''Rep. Brit. Assoc.'' xcix: "Frankland and Lockyer find the yellow prominences to give a very decided bright line not far from D, but hitherto not identified with any terrestrial flame. It seems to indicate a new substance, which they propose to call Helium."</ref><ref>For the name "helium" see also {{cite journal | last =Jensen | first =William B. | authorlink = | title = Why Helium Ends in "ium" | journal = Journal of Chemical Education | volume = 81 | issue = 7 | pages = 944 | publisher = | date =2004 | doi = 10.1021/ed081p944 |bibcode = 2004JChEd..81..944J }}</ref>

<!--This needs better incorporation or should be deleted, since it can be read to mean that Janssen did these things: Since it was near the Fraunhofer D line he later named the new line D<sub>3</sub>, distinguishing it from the nearby D<sub>1</sub> and D<sub>2</sub> doublet lines of [[sodium]]. He and English chemist [[Edward Frankland]] named the element after the Greek word for the Sun god, ''[[Helios]]''. -->
==Solar spectroscopy==
In 1868 Janssen discovered how to observe [[solar prominence]]s without an [[eclipse]]. While observing the [[solar eclipse of 18 August 1868]], at [[Guntur]], [[Madras State]] (now in [[Andhra Pradesh]]), British India, he noticed bright lines in the spectrum of the chromosphere, showing that the chromosphere is gaseous. From the brightness of the spectral lines, Janssen realized that the chromospheric spectrum could be observed even without an eclipse, and he proceeded to do so.<ref>{{cite journal
| last = Kochhar
| first = R.K.
| title = French astronomers in India during the 17th–19th centuries
| journal = J. Br. Astron. Assoc.
| volume = 101
| pages = 95–100
| date = 1991
| issue = 2
| bibcode = 1991JBAA..101...95K
}}</ref> But he never mentioned the emission line seen by [[Joseph Norman Lockyer]], which later was shown to be due to the element helium.<ref>Launay F (2008) ''The astronomer Jules Janssen – a globetrotter of celestial physics''. Springer, New York, p 45.</ref><ref>Kragh H (2009) "The solar element: a reconsideration of helium’s early history". ''Ann Sci'' 66:157–182</ref>

On 20 October, Lockyer in England set up a new, relatively powerful [[Optical spectrometer|spectroscope]]. He also observed the emission spectrum of the chromosphere, including a new yellow line near the sodium D line, which he called "D3". Lockyer and the English chemist [[Edward Frankland]] speculated that the new line could be due to a new element, which they named the element after the Greek word for the Sun, ἥλιος (''helios'').<ref>''Oxford English Dictionary'' (1989), s.v. "helium". Retrieved 16 December 2006, from ''Oxford English Dictionary Online''. Also, from quotation there: Thomson, W. (1872). ''Rep. Brit. Assoc.'' xcix: "Frankland and Lockyer find the yellow prominences to give a very decided bright line not far from D, but hitherto not identified with any terrestrial flame. It seems to indicate a new substance, which they propose to call Helium."</ref><ref>For the name "helium" see also {{cite journal|author1-link=William B. Jensen | last =Jensen | first =William B. | title = Why Helium Ends in "ium" | journal = Journal of Chemical Education | volume = 81 | issue = 7 | page = 944 | date =2004 | doi = 10.1021/ed081p944 |bibcode = 2004JChEd..81..944J }}</ref>


==Observatories==
==Observatories==
[[File:1874 Pierre Jules César Janssen - Passage de Venus.webm|thumb|right|''[[Passage de Venus]]'' (1874)]]
At the great Indian eclipse of 1868 that occurred in [[Guntur]], Janssen also demonstrated the gaseous nature of the red prominences, and devised a method of observing them under ordinary daylight conditions.<ref>{{cite journal | bibcode = 1991JBAA..101...95K | title = French astronomers in India during the 17th - 19th centuries | author1 = Kochhar | first1 = R. K. | volume = 101 | date = 1991 | pages = 95 | journal = Journal of the British Astronomical Association }}</ref> One main purpose of his spectroscopic inquiries was to answer the question whether the [[Sun]] contains [[oxygen]] or not. An indispensable preliminary was the virtual elimination of oxygen-absorption in the [[Earth's atmosphere]], and his bold project of establishing an observatory on the top of [[Mont Blanc]] was prompted by a perception of the advantages to be gained by reducing the thickness of air through which observations have to be made. This observatory, the foundations of which were fixed in the snow that appears to cover the summit to a depth of ten metres, was built in September 1893, and Janssen, in spite of his sixty-nine years, made the ascent and spent four days taking observations.
At the great Indian eclipse of 1868 that occurred in [[Guntur]], Janssen also demonstrated the gaseous nature of the red prominences, and devised a method of observing them under ordinary daylight conditions.<ref name="Chisholm 1911, p. 155"/><ref>{{cite journal | bibcode = 1991JBAA..101...95K | title = French astronomers in India during the 17th 19th centuries | last1 = Kochhar |first1=R. K. |volume=101 |date=1991 |pages=95 |journal=Journal of the British Astronomical Association }}</ref> One main purpose of his spectroscopic inquiries was to answer the question whether the [[Sun]] contains [[oxygen]] or not. An indispensable preliminary was the virtual elimination of oxygen-absorption in the [[Earth's atmosphere]], and his bold project of establishing an observatory on the top of [[Mont Blanc]] was prompted by a perception of the advantages to be gained by reducing the thickness of air through which observations have to be made. This observatory, the foundations of which were fixed in the hard ice that appeared to cover the summit to a depth of over ten metres, was built in September 1893, and Janssen, in spite of his sixty-nine years, made the ascent and spent four days making observations.<ref name="Chisholm 1911, p. 155"/><ref>{{cite web|last1=Tarbell|first1=Ida M.|title=The Observatory On Top Of Mont Blanc|url=http://todayinsci.com/J/Janssen_Pierre/JanssenPierre-MontBlancObservatory.htm|website=todayinsci.com|publisher=McClure's Magazine|access-date=12 April 2016|date=1894}}</ref>


In 1875, Janssen was appointed director of the new astrophysical observatory established by the French government at [[Meudon]], and set on foot there in 1876 the remarkable series of solar photographs collected in his great ''Atlas de photographies solaires'' (1904). The first volume of the ''Annales de l'observatoire de Meudon'' was published by him in 1896.
In 1875, Janssen was appointed director of the new astrophysical observatory established by the French government at [[Meudon]], and set on foot there in 1876 the remarkable series of solar photographs collected in his great ''Atlas de photographies solaires'' (1904). The first volume of the ''Annales de l'observatoire de Meudon'' was published by him in 1896.<ref name="Chisholm 1911, p. 155"/> (see also [[Meudon Great Refractor]])

Janssen was the President of the [[Société astronomique de France|Société Astronomique de France (SAF)]], the French astronomical society, from 1895 to 1897.<ref name=BSAF1911>[http://gallica.bnf.fr/ark:/12148/bpt6k9626551q/f616.item''Bulletin de la Société astronomique de France''], 1911, vol. 25, pp. 581–586</ref>


==International Meridian Conference==
==International Meridian Conference==
In 1884 he took part in the [[International Meridian Conference]].<ref name=imc>{{cite web|title=International Conference Held at Washington for the Purpose of Fixing a Prime Meridian and a Universal Day. October, 1884. Protocols of the proceedings.|url=http://www.gutenberg.org/files/17759/17759-h/17759-h.htm|publisher=Project Gutenberg|access-date=30 November 2012|year=1884}}</ref>
In 1884 he took part in the [[International Meridian Conference]].


==Death, honors, and legacy==
==Death, honors, and legacy==
[[Image:Janssen grave.jpg|thumb|Janssen's grave in Paris]]
[[File:Janssen grave.jpg|thumb|Janssen's grave in Paris]]
Janssen died at Meudon on 23 December 1907 and was buried at [[Père Lachaise Cemetery]] in Paris, with the name "J. Janssen" on his tomb. During his life he was made a Knight of the [[Legion of Honor]] and a Foreign Member of the [[Royal Society of London]]. [[Impact crater|Crater]]s on both [[Mars]] and the [[Moon]] are named in his honor. The square on which [[Meudon Observatory]] opens is named ''Place Jules Janssen'' after him.
Janssen died at Meudon on 23 December 1907 and was buried at [[Père Lachaise Cemetery]] in Paris, with the name "J. Janssen" inscribed on his tomb. During his life he was made a Knight of the [[Legion of Honor]] and a [[ForMemRS|Foreign Member]] of the [[Royal Society of London]].{{citation needed|date=October 2018}}

[[Impact crater|Crater]]s on both [[Janssen (Martian crater)|Mars]]<ref name=Hughes2012>{{cite book | title=Catchers of the Light: The Forgotten Lives of the Men and Women Who First Photographed the Heavens | first=Stefan | last=Hughes | publisher=ArtDeCiel Publishing | year=2012 | isbn=978-1620509616 | page=274 | url=https://books.google.com/books?id=iZk5OOf7fVYC&pg=PA274 }}</ref> and the [[Janssen (lunar crater)|Moon]] are named in his honor. The [[public square]] in front of [[Meudon Observatory]] is named ''Place Jules Janssen'' after him. Two major prizes carry his name: the [[Prix Jules Janssen]] of the [[French Astronomical Society]], and the [[Janssen Medal (French Academy of Sciences)|Janssen Medal]] of the [[French Academy of Sciences]].{{citation needed|date=October 2018}}

Janssen named minor planet [[225 Henrietta]] discovered by [[Johann Palisa]], after his wife, Henrietta.<ref>{{cite book |title = Dictionary of Minor Planet Names – (225) Henrietta |last = Schmadel | first = Lutz D. |publisher = Springer Berlin Heidelberg |page = 35 |date = 2007 |isbn = 978-3-540-00238-3 |doi = 10.1007/978-3-540-29925-7_226 |chapter = (225) Henrietta }}</ref>


==Notes and references==
==Notes and references==
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==Further reading==
==Further reading==
{{Commons category|Jules Janssen}}
{{Commons category|Jules Janssen}}
* {{cite journal|bibcode=1908MNRAS..68..245.|doi=10.1093/mnras/68.4.245|title=Pierre Jules Cesar Janssen|journal=Monthly Notices of the Royal Astronomical Society|volume=68|issue=4|pages=245–249|year=1908|doi-access=free}}

* {{cite book
|title=Monthly Notices of the Royal Astronomical Society
|author=Royal Astronomical Society
|date=1908
|publisher=Priestley and Weale
|isbn=
|url=http://books.google.com/?id=VUA0AAAAIAAJ&pg=PA6&dq=pierre+janssen+obituary
}}, from ''Monthly Notices of the Royal Astronomical Society'', 1908, vol. 68, pp.&nbsp;245–249
* [http://adsabs.harvard.edu/abs/1908PA.....16...72M Obituary], from ''Popular Astronomy'', 1908, vol. 16, pp.&nbsp;72–74
* [http://adsabs.harvard.edu/abs/1908PA.....16...72M Obituary], from ''Popular Astronomy'', 1908, vol. 16, pp.&nbsp;72–74
* [http://adsabs.harvard.edu/abs/1908AN....177...63P Obituary], from ''Astronomische Nachrichten'', 1908, vol. 177, p.&nbsp;63 (in French)
* [http://adsabs.harvard.edu/abs/1908AN....177...63P Obituary], from ''Astronomische Nachrichten'', 1908, vol. 177, p.&nbsp;63 (in French)
* [http://adsabs.harvard.edu/abs/1908ApJ....28...89D Obituary], from ''The Astrophysical Journal'', 1908, vol. 28, pp.&nbsp;89–99 (in French)
* [http://adsabs.harvard.edu/abs/1908ApJ....28...89D Obituary], from ''The Astrophysical Journal'', 1908, vol. 28, pp.&nbsp;89–99 (in French)
* [http://www.1911encyclopedia.org/Pierre_Jules_Cesar_Janssen 1911 Encyclopædia Britannica ''Eleventh Edition''], entry for Janssen
* [http://articles.adsabs.harvard.edu/full/1922Obs....45..175. Janssen statue], description and black-and-white picture from ''The Observatory'', 1922, vol. 45, pp.&nbsp;175–176
* [http://articles.adsabs.harvard.edu/full/1922Obs....45..175. Janssen statue], description and black-and-white picture from ''The Observatory'', 1922, vol. 45, pp.&nbsp;175–176
* [http://www.web.archive.org/http://www.hao.ucar.edu/Public/education/bios/janssen.html Brief biography], from the High Altitude Observatory at Boulder, Colorado
* [https://web.archive.org/web/20060523071018/http://www.hao.ucar.edu/Public/education/bios/janssen.html Brief biography], from the High Altitude Observatory at Boulder, Colorado
* {{Victorian Cinema|janssen.htm}}
* {{Victorian Cinema|janssen.htm}}
{{EB1911}}
* {{cite book |author=Launay, Françoise |title=The Astronomer Jules Janssen: A Globetrotter of Celestial Physics |publisher=Springer |date=2012 }}
* {{cite book |author=Launay, Françoise |title=The Astronomer Jules Janssen: A Globetrotter of Celestial Physics |publisher=Springer |date=2012 }}
* {{cite book |author=Launay, Françoise |title=Un Globe-Trotter de la Physique Céleste: L'astronome Jules Janssen |publisher=Vuibert |date=2008 }}
* {{cite book |author=Launay, Françoise |title=Un Globe-Trotter de la Physique Céleste: L'astronome Jules Janssen |publisher=Vuibert |date=2008 }}
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[[Category:Burials at Père Lachaise Cemetery]]
[[Category:Burials at Père Lachaise Cemetery]]
[[Category:Discoverers of chemical elements]]
[[Category:Discoverers of chemical elements]]
[[Category:French astronomers]]
[[Category:19th-century French astronomers]]
[[Category:Foreign Members of the Royal Society]]
[[Category:Members of the French Academy of Sciences]]
[[Category:Chevaliers of the Légion d'honneur]]
[[Category:Foreign members of the Royal Society]]
[[Category:Foreign associates of the National Academy of Sciences]]
[[Category:Knights of the Legion of Honour]]
[[Category:Honorary Fellows of the Royal Society of Edinburgh]]
[[Category:Honorary Fellows of the Royal Society of Edinburgh]]
[[Category:Scientists from Paris]]
[[Category:Scientists from Paris]]
[[Category:19th-century astronomers]]
[[Category:19th-century French people]]
[[Category:Helium]]
[[Category:Helium]]
[[Category:Spectroscopists]]
[[Category:Spectroscopists]]
[[Category:Recipients of the Lalande Prize]]
[[Category:Articles containing video clips]]
[[Category:French people of Belgian descent]]

Latest revision as of 16:46, 5 November 2024

For the Belgian footballer, see Pier Janssen.

Jules Janssen; photograph by Nadar (date unknown)
Photo taken by Janssen, from the Meudon observatory, of Renard and Krebs' La France dirigible (1885)

Pierre Jules César Janssen (22 February 1824 – 23 December 1907), usually known as Jules Janssen, was a French astronomer who, along with English scientist Joseph Norman Lockyer, is credited with discovering the gaseous nature of the solar chromosphere, but there is no justification for the conclusion that he deserves credit for the co-discovery of the element helium.

Life, work, and interests

[edit]

Janssen was born in Paris (During Bourbon Restoration in France) into a cultivated family. His father, César Antoine Janssen (born in Paris, 1780 – 1860) was a well known clarinettist from Dutch/Belgian descent (his father, Christianus Janssen, emigrated from Walloon Brabant to Paris). His mother Pauline Marie Le Moyne (1789 – 1871) was a daughter of the architect Paul Guillaume Le Moyne.[1]

Pierre Janssen studied mathematics and physics at the faculty of sciences. He taught at the Lycée Charlemagne in 1853, and in the school of architecture 1865 – 1871, but his energies were mainly devoted to various scientific missions entrusted to him. Thus in 1857 he went to Peru in order to determine the magnetic equator; in 1861–1862 and 1864, he studied telluric absorption in the solar spectrum in Italy and Switzerland; in 1867 he carried out optical and magnetic experiments at the Azores; he successfully observed both transits of Venus, that of 1874 in Japan, that of 1882 at Oran in Algeria; and he took part in a long series of solar eclipse-expeditions, e.g. to Trani, Italy (1867), Guntur, India (1868), Algiers (1870), Siam (1875), the Caroline Islands (1883), and to Alcossebre in Spain (1905). To see the eclipse of 1870, he escaped from the Siege of Paris in a balloon.[2] Unfortunately the eclipse was obscured from him by cloud.[3]

In the year 1874, Janssen invented the Revolver of Janssen or Photographic Revolver, instrument that originated the chronophotography. Later this invention was of great use for researchers like Etienne Jules Marey to carry out exhibitions and inventions.

Solar spectroscopy

[edit]

In 1868 Janssen discovered how to observe solar prominences without an eclipse. While observing the solar eclipse of 18 August 1868, at Guntur, Madras State (now in Andhra Pradesh), British India, he noticed bright lines in the spectrum of the chromosphere, showing that the chromosphere is gaseous. From the brightness of the spectral lines, Janssen realized that the chromospheric spectrum could be observed even without an eclipse, and he proceeded to do so.[4] But he never mentioned the emission line seen by Joseph Norman Lockyer, which later was shown to be due to the element helium.[5][6]

On 20 October, Lockyer in England set up a new, relatively powerful spectroscope. He also observed the emission spectrum of the chromosphere, including a new yellow line near the sodium D line, which he called "D3". Lockyer and the English chemist Edward Frankland speculated that the new line could be due to a new element, which they named the element after the Greek word for the Sun, ἥλιος (helios).[7][8]

Observatories

[edit]
Passage de Venus (1874)

At the great Indian eclipse of 1868 that occurred in Guntur, Janssen also demonstrated the gaseous nature of the red prominences, and devised a method of observing them under ordinary daylight conditions.[2][9] One main purpose of his spectroscopic inquiries was to answer the question whether the Sun contains oxygen or not. An indispensable preliminary was the virtual elimination of oxygen-absorption in the Earth's atmosphere, and his bold project of establishing an observatory on the top of Mont Blanc was prompted by a perception of the advantages to be gained by reducing the thickness of air through which observations have to be made. This observatory, the foundations of which were fixed in the hard ice that appeared to cover the summit to a depth of over ten metres, was built in September 1893, and Janssen, in spite of his sixty-nine years, made the ascent and spent four days making observations.[2][10]

In 1875, Janssen was appointed director of the new astrophysical observatory established by the French government at Meudon, and set on foot there in 1876 the remarkable series of solar photographs collected in his great Atlas de photographies solaires (1904). The first volume of the Annales de l'observatoire de Meudon was published by him in 1896.[2] (see also Meudon Great Refractor)

Janssen was the President of the Société Astronomique de France (SAF), the French astronomical society, from 1895 to 1897.[11]

International Meridian Conference

[edit]

In 1884 he took part in the International Meridian Conference.[12]

Death, honors, and legacy

[edit]
Janssen's grave in Paris

Janssen died at Meudon on 23 December 1907 and was buried at Père Lachaise Cemetery in Paris, with the name "J. Janssen" inscribed on his tomb. During his life he was made a Knight of the Legion of Honor and a Foreign Member of the Royal Society of London.[citation needed]

Craters on both Mars[13] and the Moon are named in his honor. The public square in front of Meudon Observatory is named Place Jules Janssen after him. Two major prizes carry his name: the Prix Jules Janssen of the French Astronomical Society, and the Janssen Medal of the French Academy of Sciences.[citation needed]

Janssen named minor planet 225 Henrietta discovered by Johann Palisa, after his wife, Henrietta.[14]

Notes and references

[edit]
  1. ^ Amalric, Pierre (1992). Jules Janssen (1824–1907): From ophthalmology to astronomy.
  2. ^ a b c d  One or more of the preceding sentences incorporates text from a publication now in the public domainChisholm, Hugh, ed. (1911). "Janssen, Pierre Jules César". Encyclopædia Britannica. Vol. 16 (11th ed.). Cambridge University Press. p. 155.
  3. ^ Espenak, Fred. "Chronology of Discoveries about the Sun". Mr. Eclipse. Archived from the original on 19 October 2020. Retrieved 6 November 2020.
  4. ^ Kochhar, R.K. (1991). "French astronomers in India during the 17th–19th centuries". J. Br. Astron. Assoc. 101 (2): 95–100. Bibcode:1991JBAA..101...95K.
  5. ^ Launay F (2008) The astronomer Jules Janssen – a globetrotter of celestial physics. Springer, New York, p 45.
  6. ^ Kragh H (2009) "The solar element: a reconsideration of helium’s early history". Ann Sci 66:157–182
  7. ^ Oxford English Dictionary (1989), s.v. "helium". Retrieved 16 December 2006, from Oxford English Dictionary Online. Also, from quotation there: Thomson, W. (1872). Rep. Brit. Assoc. xcix: "Frankland and Lockyer find the yellow prominences to give a very decided bright line not far from D, but hitherto not identified with any terrestrial flame. It seems to indicate a new substance, which they propose to call Helium."
  8. ^ For the name "helium" see also Jensen, William B. (2004). "Why Helium Ends in "ium"". Journal of Chemical Education. 81 (7): 944. Bibcode:2004JChEd..81..944J. doi:10.1021/ed081p944.
  9. ^ Kochhar, R. K. (1991). "French astronomers in India during the 17th – 19th centuries". Journal of the British Astronomical Association. 101: 95. Bibcode:1991JBAA..101...95K.
  10. ^ Tarbell, Ida M. (1894). "The Observatory On Top Of Mont Blanc". todayinsci.com. McClure's Magazine. Retrieved 12 April 2016.
  11. ^ Bulletin de la Société astronomique de France, 1911, vol. 25, pp. 581–586
  12. ^ "International Conference Held at Washington for the Purpose of Fixing a Prime Meridian and a Universal Day. October, 1884. Protocols of the proceedings". Project Gutenberg. 1884. Retrieved 30 November 2012.
  13. ^ Hughes, Stefan (2012). Catchers of the Light: The Forgotten Lives of the Men and Women Who First Photographed the Heavens. ArtDeCiel Publishing. p. 274. ISBN 978-1620509616.
  14. ^ Schmadel, Lutz D. (2007). "(225) Henrietta". Dictionary of Minor Planet Names – (225) Henrietta. Springer Berlin Heidelberg. p. 35. doi:10.1007/978-3-540-29925-7_226. ISBN 978-3-540-00238-3.

Further reading

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Wikimedia Commons has media related to Jules Janssen.
  • "Pierre Jules Cesar Janssen". Monthly Notices of the Royal Astronomical Society. 68 (4): 245–249. 1908. Bibcode:1908MNRAS..68..245.. doi:10.1093/mnras/68.4.245.
  • Obituary, from Popular Astronomy, 1908, vol. 16, pp. 72–74
  • Obituary, from Astronomische Nachrichten, 1908, vol. 177, p. 63 (in French)
  • Obituary, from The Astrophysical Journal, 1908, vol. 28, pp. 89–99 (in French)
  • Janssen statue, description and black-and-white picture from The Observatory, 1922, vol. 45, pp. 175–176
  • Brief biography, from the High Altitude Observatory at Boulder, Colorado
  • Pierre Janssen at Who's Who of Victorian Cinema
  • Launay, Françoise (2012). The Astronomer Jules Janssen: A Globetrotter of Celestial Physics. Springer.
  • Launay, Françoise (2008). Un Globe-Trotter de la Physique Céleste: L'astronome Jules Janssen. Vuibert.
  • Nath, B. B. (2012). The Discovery of Helium and the Birth of Astrophysics. Springer.
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