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SMPTE Journal ( Volume: 111, Issue: 5, May 2002)
[ACTIVE]

The Laser Cathode Ray Tube—A Paradigm Shift in Illumination

Metadata

Publisher
SMPTE — White Plains, NY, USA
Doc Type
Journal Article
Content Type
Original Research
Abbreviated Title
SMPTE J
Volume
111, No. 5, pp. 210–213
Abstract
The Laser cathode ray tube (Laser-CRT) is a high-power light and image source for application in projection display, telecine, and film recording. In a Laser-CRT, a semiconductor laser faceplate replaces the phosphor. A scanning electron beam impinges upon the faceplate and light is produced at each point along a raster by laser action. The Laser-CRT combines the best of CRTs and lasers: the high-resolution, multisync, multiformat reliability of CRTs, with the rich saturated colors, wide gamut, and high contrast ratio available with lasers.
Publication Date
2002-05-01
DOI
10.5594/J16376
ISSN
Print: 0036-1682
Link
https://doi.org/10.5594/J16376
Author(s)
Michael D. TiberiPrincipia LightWorks, Inc., Marina del Rey, CA 90292, and Vladimir Kozlovsky is with the Lebedev Physical Institute, Moscow, Russia.
bio
Michael Tiberi founded Principia LightWorks in 1999. He has an extensive background in project management and technical experience in telecommunications, software design, and display technology. He has managed Principia's intellectual property portfolio, resulting in eight issued U.S. patents. He developed the plan for commercialization of the Laser-CRT technology and managed the scientific and engineering staff at the P. N. Lebedev Physical Institute in Moscow throughout its implementation. Tiberi's educational background includes studies in mathematics, chemistry, and physics at Pasadena City College, California State University at Los Angeles, and Loyola Marymount University. He also studied at Bradford University, England, with an emphasis on literature of the Scientific Revolution.
Glenn ShermanPrincipia LightWorks, Inc., Marina del Rey, CA 90292, and Vladimir Kozlovsky is with the Lebedev Physical Institute, Moscow, Russia.
bio
Glenn Sherman joined Principia as its CEO in 2000. Previously he was the founder and CEO of Laser Power Corp., a company that developed laser projectors and solid-state lasers for them, and manufactured blue, green, and infrared microlasers used in projection display and telecommunications, as well as optics for high-power industrial, medical, and military lasers and night vision systems. Sherman earned B.S., M.S., and Ph.D. degrees in electrical engineering from the University of Illinois at Urbana-Champaign (UIUC). In 1990, he received the Distinguished Alumnus Award from the UIUC Department of Electrical and Computer Engineering.
Vladimir I. KozlovskyPrincipia LightWorks, Inc., Marina del Rey, CA 90292, and Vladimir Kozlovsky is with the Lebedev Physical Institute, Moscow, Russia.
bio
Vladimir Kozlovsky received a diploma in physics from the Moscow Institute of Physics and Technology (MIPT) and a Ph.D. in quantum radiophysics from the P. N. Lebedev Physical Institute of Russian Academy of Sciences (Lebedev Inst.). After graduation from MIPT, he joined the staff of the Lebedev Institute where he is the lead researcher in e-beam pumped scanning semiconductor lasers. For his work, Kozlovsky was awarded the Lenin Komsomol Prize in science in 1977.
Copyright
© 2002 Society of Motion Picture and Television Engineers, Inc.

Bibliographic Reference(s)

  • Improving the Quality of Film to Digital Transfers for Digital Cinema [Active]
  • 1. Basov N. B. , “Semiconductor Lasers,” Nobel Lecture, Dec. 1964 . EXTERNAL
  • 2. Doane Bill , “Flat-Panel Display Technologies in Russia, Ukraine, and Belarus,” Information Display , Vol. 11 , No. 4/5 , April/May 1995 . EXTERNAL
  • 3. Popov Y. M. Eliseev P. G. , “Semiconductor Lasers,” Kvantovaya Elektronika 27 , ( 12 ) pp. 1035 – 1047 , 1997 . EXTERNAL
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Michael D. Tiberi, Glenn Sherman, and Vladimir I. Kozlovsky; The Laser Cathode Ray Tube—A Paradigm Shift in Illumination, SMPTE Journal ( Volume: 111, Issue: 5, May 2002); SMPTE, 2002. Available at https://doi.org/10.5594/J16376
Snippet:
Michael D. Tiberi, Glenn Sherman, and Vladimir I. Kozlovsky; The Laser Cathode Ray Tube—A Paradigm Shift in Illumination, SMPTE Journal ( Volume: 111, Issue: 5, May 2002); SMPTE, 2002. Available at https://doi.org/10.5594/J16376

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Michael D. Tiberi, Glenn Sherman, and Vladimir I. Kozlovsky; The Laser Cathode Ray Tube—A Paradigm Shift in Illumination, SMPTE Journal ( Volume: 111, Issue: 5, May 2002); SMPTE, 2002. Available at https://doi.org/10.5594/J16376
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<span class="citation">Michael D. Tiberi, Glenn Sherman, and Vladimir I. Kozlovsky; <cite>The Laser Cathode Ray Tube—A Paradigm Shift in Illumination</cite>, SMPTE Journal ( Volume: 111, Issue: 5, May 2002); SMPTE, 2002. Available at <a href="https://doi.org/10.5594/J16376" target="_blank" rel="noopener">https://doi.org/10.5594/J16376</a></span>

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Michael D. Tiberi, Glenn Sherman, and Vladimir I. Kozlovsky; The Laser Cathode Ray Tube—A Paradigm Shift in Illumination, SMPTE Journal ( Volume: 111, Issue: 5, May 2002); SMPTE, 2002
doi: 10.5594/J16376
url: https://doi.org/10.5594/J16376
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Michael D. Tiberi, Glenn Sherman, and Vladimir I. Kozlovsky; <cite id="bib-10-5594-j16376">The Laser Cathode Ray Tube—A Paradigm Shift in Illumination</cite>, SMPTE Journal ( Volume: 111, Issue: 5, May 2002); SMPTE, 2002
<span class="doi">10.5594/J16376</span>
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