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Albert Rose

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== Albert Rose: Biography  ==
 
 
 
[[Image:Rose.jpg|thumb|left]]Born: 30 March 1910<br>Died: 26 July 1990  
 
[[Image:Rose.jpg|thumb|left]]Born: 30 March 1910<br>Died: 26 July 1990  
  
=== Early Life and Education  ===
+
== Early Life and Education  ==
  
A native of New York, Albert Rose was born on 30 March 1910. He joined RCA after receiving an A.B. degree and a Ph.D. degree in Physics from Cornell University in 1931 and 1935, respectively.  
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A native of New York, Albert Rose was born on 30 March 1910. He joined [[RCA (Radio Corporation of America)|RCA]] after receiving an A.B. degree and a Ph.D. degree in Physics from Cornell University in 1931 and 1935, respectively.  
  
=== Early Work on Camera Technology  ===
+
== Early Work on Camera Technology  ==
  
 
Rose's initial research efforts produced the Orthicon in 1937, the camera tube used in [[RCA (Radio Corporation of America)|RCA]]'s introduction of television at the New York World's Fair in 1939. In 1942 when [[RCA Laboratories at Princeton, New Jersey|RCA Laboratories]] was established, Rose transferred to Princeton from Harrison, N.J., bringing with him a completed model of what later became the Image Orthicon. At RCA Laboratories he was joined by [[Oral-History:Paul K. Weimer|P.K. Weimer]] and H.B. Law, who had developed what was essentially an electrostatic counterpart of Rose's tube. The three combined their efforts to perfect a new pickup tube with increased sensitivity, greater contrast, improved picture quality, and decreased size and weight. The Image Orthicon was turned over to the War and Navy Departments in 1943 for use in guided missiles. For the first quarter century of television, it was the principal camera tube for television broadcasts throughout the world.  
 
Rose's initial research efforts produced the Orthicon in 1937, the camera tube used in [[RCA (Radio Corporation of America)|RCA]]'s introduction of television at the New York World's Fair in 1939. In 1942 when [[RCA Laboratories at Princeton, New Jersey|RCA Laboratories]] was established, Rose transferred to Princeton from Harrison, N.J., bringing with him a completed model of what later became the Image Orthicon. At RCA Laboratories he was joined by [[Oral-History:Paul K. Weimer|P.K. Weimer]] and H.B. Law, who had developed what was essentially an electrostatic counterpart of Rose's tube. The three combined their efforts to perfect a new pickup tube with increased sensitivity, greater contrast, improved picture quality, and decreased size and weight. The Image Orthicon was turned over to the War and Navy Departments in 1943 for use in guided missiles. For the first quarter century of television, it was the principal camera tube for television broadcasts throughout the world.  
  
=== Later Explorations and Company Service  ===
+
== Later Explorations and Company Service  ==
  
In 1942 Rose became interested in the relative limitations in the light sensitivity of photographic film, television pickup tubes, and the human eye. This work resulted in development of a theory of visual sensitivity and, ultimately, in the publication in 1973 of his book, ''Vision: Human and Electronic''. His studies in the field of solids led to his monograph, ''Concepts in Photoconductivity and Allied Problems'', published in 1963.  
+
In 1942 Rose became interested in the relative limitations in the light sensitivity of photographic film, [[Television|television]] pickup tubes, and the human eye. This work resulted in development of a theory of visual sensitivity and, ultimately, in the publication in 1973 of his book, ''Vision: Human and Electronic''. His studies in the field of solids led to his monograph, ''Concepts in Photoconductivity and Allied Problems'', published in 1963.  
  
From 1955 to 1957, Rose headed the research activity of the then newly established Laboratories RCA Ltd., Zurich, Switzerland. On his return to RCA Laboratories in Princeton, he resumed research relating to the study and application of photoelectric phenomena, and in 1959 he was named a Fellow of the Technical Staff. He retired from RCA in 1975 but continued involvement in his field as a visiting professor and consultant.  
+
From 1955 to 1957, Rose headed the research activity of the then newly established Laboratories RCA Ltd., Zurich, Switzerland. On his return to [[RCA (Radio Corporation of America)|RCA Laboratories]] in Princeton, he resumed research relating to the study and application of photoelectric phenomena, and in 1959 he was named a Fellow of the Technical Staff. He retired from [[RCA (Radio Corporation of America)|RCA]] in 1975 but continued involvement in his field as a visiting professor and consultant.  
  
=== Legacy  ===
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== Legacy  ==
  
Rose was granted about 40 U.S. patents and published more than 50 technical papers and articles. His 40-year career with RCA, which resulted in important discoveries and applications in photoconductivity and photosensitivity, included basic contributions to the Orthicon, Image Orthicon, and Vidicon TV camera tubes. He received many awards including the Television Broadcasters Association Award, the Morris N. Liebmann Award of the Institute of Radio Engineers, and the Journal Award of the Society of Motion Picture Engineers. In 1958 he was one of two recipients of the first RCA David Sarnoff Outstanding Achievement Award in Science and Engineering "for basic contributions to the understanding and utilization of photoelectric phenomena." In 1958 he received the [[David Sarnoff|David Sarnoff]] Gold Medal Award of the Society of Motion Picture and Television Engineers for basic contributions to TV pickup tubes. He was awarded the [[IEEE Edison Medal|IEEE Edison Medal]] in 1979 "For basic inventions in television camera tubes and fundamental contributions to the understanding of photoconductivity, insulators, and human and electronic vision."  
+
Rose was granted about 40 U.S. patents and published more than 50 technical papers and articles. His 40-year career with RCA, which resulted in important discoveries and applications in photoconductivity and photosensitivity, included basic contributions to the Orthicon, Image Orthicon, and Vidicon TV camera tubes. He received many awards including the Television Broadcasters Association Award, the Morris N. Liebmann Award of the [[IRE History 1912-1963|Institute of Radio Engineers]], and the Journal Award of the Society of Motion Picture Engineers. In 1958 he was one of two recipients of the first RCA [[David Sarnoff|David Sarnoff]] Outstanding Achievement Award in Science and Engineering "for basic contributions to the understanding and utilization of photoelectric phenomena." In 1958 he received the David Sarnoff Gold Medal Award of the Society of Motion Picture and Television Engineers for basic contributions to TV pickup tubes. He was awarded the [[IEEE Edison Medal|IEEE Edison Medal]] in 1979 "For basic inventions in television camera tubes and fundamental contributions to the understanding of photoconductivity, insulators, and human and electronic vision."  
  
A Fellow of the American Physical Society and the Institute of Electrical and Electronics Engineers, Rose was a member of Phi Beta Kappa and the Societe Suisse de Physique. He was a member of the National Academy of Engineering. He served on the organizing committees for many International Conferences and lectured extensively on his fields of interest in the U.S. and abroad. He served as Associate Editor and Editorial Advisor of major scientific journals.  
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A Fellow of the American Physical Society and the [[IEEE Fellow Grade History|Institute of Electrical and Electronics Engineers]], Rose was a member of Phi Beta Kappa and the Societe Suisse de Physique. He was a member of the National Academy of Engineering. He served on the organizing committees for many International Conferences and lectured extensively on his fields of interest in the U.S. and abroad. He served as Associate Editor and Editorial Advisor of major scientific journals.  
  
 
Rose and his wife, Lillian, had two children. Rose passed away on 26 July 1990.  
 
Rose and his wife, Lillian, had two children. Rose passed away on 26 July 1990.  
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Alfonso Narvaez, “Albert Rose, a Research Scientist Known for TV Tube, Dies at 80,” ''New York Times'', Aug. 1 1990.  
 
Alfonso Narvaez, “Albert Rose, a Research Scientist Known for TV Tube, Dies at 80,” ''New York Times'', Aug. 1 1990.  
  
[[Category:Engineered_materials_&_dielectrics|Category:Engineered_materials_&amp;_dielectrics]] [[Category:Materials]] [[Category:Photoconducting_materials]] [[Category:Insulation]] [[Category:Insulators]] [[Category:Components,_circuits,_devices_&_systems|Category:Components,_circuits,_devices_&amp;_systems]] [[Category:Electron_devices]] [[Category:Electron_tubes]] [[Category:News]]
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[[Category:Materials|Rose]] [[Category:Materials|Rose]] [[Category:Photoconducting materials|Rose]] [[Category:Insulation|Rose]] [[Category:Insulators|Rose]] [[Category:Computing and electronics|Rose]] [[Category:Electron devices|Rose]] [[Category:Electron tubes|Rose]] [[Category:News|Rose]]
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[[Category:News]]

Latest revision as of 15:17, 25 July 2014

Born: 30 March 1910
Died: 26 July 1990

Contents

Early Life and Education

A native of New York, Albert Rose was born on 30 March 1910. He joined RCA after receiving an A.B. degree and a Ph.D. degree in Physics from Cornell University in 1931 and 1935, respectively.

Early Work on Camera Technology

Rose's initial research efforts produced the Orthicon in 1937, the camera tube used in RCA's introduction of television at the New York World's Fair in 1939. In 1942 when RCA Laboratories was established, Rose transferred to Princeton from Harrison, N.J., bringing with him a completed model of what later became the Image Orthicon. At RCA Laboratories he was joined by P.K. Weimer and H.B. Law, who had developed what was essentially an electrostatic counterpart of Rose's tube. The three combined their efforts to perfect a new pickup tube with increased sensitivity, greater contrast, improved picture quality, and decreased size and weight. The Image Orthicon was turned over to the War and Navy Departments in 1943 for use in guided missiles. For the first quarter century of television, it was the principal camera tube for television broadcasts throughout the world.

Later Explorations and Company Service

In 1942 Rose became interested in the relative limitations in the light sensitivity of photographic film, television pickup tubes, and the human eye. This work resulted in development of a theory of visual sensitivity and, ultimately, in the publication in 1973 of his book, Vision: Human and Electronic. His studies in the field of solids led to his monograph, Concepts in Photoconductivity and Allied Problems, published in 1963.

From 1955 to 1957, Rose headed the research activity of the then newly established Laboratories RCA Ltd., Zurich, Switzerland. On his return to RCA Laboratories in Princeton, he resumed research relating to the study and application of photoelectric phenomena, and in 1959 he was named a Fellow of the Technical Staff. He retired from RCA in 1975 but continued involvement in his field as a visiting professor and consultant.

Legacy

Rose was granted about 40 U.S. patents and published more than 50 technical papers and articles. His 40-year career with RCA, which resulted in important discoveries and applications in photoconductivity and photosensitivity, included basic contributions to the Orthicon, Image Orthicon, and Vidicon TV camera tubes. He received many awards including the Television Broadcasters Association Award, the Morris N. Liebmann Award of the Institute of Radio Engineers, and the Journal Award of the Society of Motion Picture Engineers. In 1958 he was one of two recipients of the first RCA David Sarnoff Outstanding Achievement Award in Science and Engineering "for basic contributions to the understanding and utilization of photoelectric phenomena." In 1958 he received the David Sarnoff Gold Medal Award of the Society of Motion Picture and Television Engineers for basic contributions to TV pickup tubes. He was awarded the IEEE Edison Medal in 1979 "For basic inventions in television camera tubes and fundamental contributions to the understanding of photoconductivity, insulators, and human and electronic vision."

A Fellow of the American Physical Society and the Institute of Electrical and Electronics Engineers, Rose was a member of Phi Beta Kappa and the Societe Suisse de Physique. He was a member of the National Academy of Engineering. He served on the organizing committees for many International Conferences and lectured extensively on his fields of interest in the U.S. and abroad. He served as Associate Editor and Editorial Advisor of major scientific journals.

Rose and his wife, Lillian, had two children. Rose passed away on 26 July 1990.

Further Research

Alfonso Narvaez, “Albert Rose, a Research Scientist Known for TV Tube, Dies at 80,” New York Times, Aug. 1 1990.