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153:. In 1939, Valentin A. Fabrikant made the earliest laser proposal. He specified the conditions required for light amplification using stimulated emission. In 1947,
91:, and the temporal evolution of the light field in the laser. It is also concerned with the physics of laser beam propagation, particularly the physics of
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and R. C. Retherford found apparent stimulated emission in hydrogen spectra and effected the first demonstration of stimulated emission; in 1950,
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306:[The risk from laser: what it is and what it is like facing it; analysis of a problem which is thus not far away from us.].
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Einstein, Albert (1917). "Zur
Quantentheorie der Strahlung" [On the Quantum Theory of Radiation] (in German).
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were awarded the Nobel Prize in
Physics in 2018 for groundbreaking inventions in the field of laser physics.
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The theoretical principles describing the operation of a microwave laser (a maser) were first described by
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304:"Il rischio da laser: cosa è e come affrontarlo; analisi di un problema non così lontano da noi"
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of electromagnetic radiation. The existence of stimulated emission was confirmed in 1928 by
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Laser modules (bottom to top: 405, 445, 520, 532, 635, and 660 nm)
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in 1964 for their research in the field of stimulated emission.
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Laser science predates the invention of the laser itself.
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Steen, W. M. "Laser
Materials Processing", 2nd Ed. 1998.
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in 1953. Townes, Basov and
Prokhorov were awarded the
161:(Nobel Prize for Physics 1966) proposed the method of
27:"Laser physics" redirects here. For the journal, see
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Programma Corso di
Formazione Obbligatorio Anno 2004
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415:Introduction to Laser Science and Engineering
341:Presentation Speech by Professor Ivar Waller
129:in 1917, via a paper in which he re-derived
71:Laser science is principally concerned with
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180:in May 1952. The first maser was built by
178:All-Union Conference on Radio Spectroscopy
125:created the foundations for the laser and
64:that describes the theory and practice of
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753:Multiple-prism grating laser oscillator
418:(1st ed.). Boca Raton: CRC Press.
215:) was demonstrated on May 16, 1960, by
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83:design, the physics of producing a
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465:A very detailed tutorial on lasers
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211:The first working laser (a pulsed
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412:Taylor, Travis (20 August 2019).
362:"The Nobel Prize in Physics 2018"
337:"The Nobel Prize in Physics 1966"
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662:Amplified spontaneous emission
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310:(in Italian). Archived from
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38:A laser experiment on an
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29:Laser Physics (journal)
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194:Nobel Prize in Physics
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392:University of Chicago
135:Einstein coefficients
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687:Population inversion
384:Townes, Charles Hard
143:spontaneous emission
85:population inversion
738:Laser beam profiler
657:Active laser medium
597:Free-electron laser
517:List of laser types
238:List of laser types
174:Alexander Prokhorov
151:Rudolf W. Ladenburg
147:stimulated emission
73:quantum electronics
364:. Nobel Foundation
97:laser applications
77:laser construction
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758:Optical amplifier
607:Solid-state laser
388:"The first laser"
190:Herbert J. Zeiger
182:Charles H. Townes
16:(Redirected from
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18:Laser physics
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445:. Retrieved
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395:. Retrieved
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366:. Retrieved
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319:. Retrieved
315:(Powerpoint)
312:the original
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264:cite journal
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778:Q-switching
639:X-ray laser
632:Ti-sapphire
602:Laser diode
580:Helium–neon
447:January 25,
397:October 17,
346:October 17,
89:laser media
321:January 1,
246:References
213:ruby laser
139:absorption
137:) for the
131:Max Planck
115:See also:
743:M squared
565:Gas laser
548:Dye laser
442:201244143
368:2 October
811:Category
796:Category
590:Nitrogen
227:See also
575:Excimer
219:at the
176:at the
111:History
95:, with
617:Nd:YAG
612:Er:YAG
553:Bubble
501:Lasers
440:
430:
204:, and
188:, and
145:, and
66:lasers
62:optics
622:Raman
438:S2CID
127:maser
117:Laser
627:Ruby
449:2021
428:ISBN
399:2010
370:2018
348:2010
323:2007
277:help
172:and
103:and
585:Ion
420:doi
87:in
56:or
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