�ber �nderung der Wellenl�nge bei Lichtzerstreuung in Kristallen

Gross, Eisen C.

doi:10.1007/bf01340308

Cited by 40 publications

(10 citation statements)

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“…The first observation of Brillouin scattering was, however, performed in Leningrad (now St. Petersburg) by E. Gross using a low-pressure mercury arc as a light source [27,28]. The two Nature articles in [27] have been cited a total of 192 times.…”

Section: Bibliometric Considerations Concerning the Raman Effectmentioning

confidence: 99%

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Light Scattering in Solids IX

Cardona

Merlín

2006

Topics in Applied Physics

109

159

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Dios (he dado en pensar) pone un empeño en toda esa inasible arquitectura que edifica la luz con la tersura del cristal y la sombra con el sueño.God (I've come to think) has left his mark in all this unfathomable architecture built up by light through the perfection of the crystal and by darkness through dreams. (Emecé, Buenos Aires, 1960) Abstract. We briefly review the contents of this as well as previous volumes of the series Light Scattering in Solids, and present a chronological account of the International Conference on Raman spectroscopy (ICORS). Jorge Luis Borges Los Espejos, in El HacedorA bibliometric study of early publications on the Raman effect is also presented together with a succint historical outline of the discovery of the effect and information recently made available about the Nobel Prize awarded to Sir Chandrasekhar Venkata Raman in 1930.

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Section: Bibliometric Considerations Concerning the Raman Effectmentioning

confidence: 99%

“…But again no figures or numbers are given. Much more detailed information is found in [31], a rather long article submitted in March 22, 1928, where the date of Raman's first observation is given as Feb. 28,1928. According to Raman "publicity was given the following day".…”

Section: Bibliometric Considerations Concerning the Raman Effectmentioning

confidence: 99%

Light Scattering in Solids IX

Cardona

Merlín

2006

Topics in Applied Physics

109

159

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“…This phenomenon, called Brillouin scattering (or Brillouin-Mandelstam scattering) could be detected spectroscopically in experiments in which light was scattered by acoustic waves with wavelength in the range of 100 nm. Brillouin scattering was first observed experimentally by Gross (1930b). However, with the conventional light sources available before the development of lasers, the measurement of Brillouin scattering was limited to compressed gases and fluids plus a handful of solids (see Krishnan 1971 for a review).…”

Section: Historical Backgroundmentioning

confidence: 99%

Brillouin Scattering and its Application in Geosciences

Speziale

Marquardt

Duffy

2014

Reviews in Mineralogy and Geochemistry

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“…They range between 0-68 and 0*91. * (c) The interferometric investigation of the light scattered by glasses shows no Doppler components (Ramm 1934;Gross 1930).…”

Section: Scattering Of Light In Glassesmentioning

confidence: 99%

“…If these directions are chosen properly the intensities of all six lines can be made to differ very little. Investigations of this type on crystals (Gross 1930) could produce a great deal of new information. According to Landsberg (1929Landsberg ( , 1931 and his collaborators the light scattered from carefully selected crystals is largely due to temperature fluctuations.…”

Section: Temperature Scattering In Solidsmentioning

confidence: 99%