Albert Rose (physicist)

Albert Rose (30 March 1910 – 26 July 1990) was an American physicist, who made major contributions to TV video camera tubes such as the orthicon, image orthicon, and vidicon.[1][2]

Albert Rose
Born(1910-03-30)30 March 1910
New York City, New York
Died26 July 1990(1990-07-26) (aged 80)
Known forRose criterion
De Vries–Rose law
Detective quantum efficiency
Photoconductivity
Video camera tubes
AwardsNew Jersey Inventors Hall of Fame (1992)
IEEE Edison Medal (1979)
Morris N. Liebmann Award
David Sarnoff Gold Medal (1958))

According to the New York Times, Albert Rose is credited as the father of the orthicon television camera tube, which was developed during World War II, and then later was an integral part of all early television broadcasts.[1]

Biography

edit

He received an A.B. degree and a Ph.D. degree in physics from Cornell University in 1931 and 1935, respectively. He joined RCA, where was active in the development of TV camera tubes.

Rose was an expert on photoconductivity. He wrote a book Concepts in photoconductivity and allied problems, which was published by John Wiley & Sons, New York, in 1963.

He also did research on the visibility of objects in a noisy signal, such as from TV tubes. He found that humans could distinguish small objects in noisy images at near 100% accuracy if the object brightness differed from the background by at least 5 times the noise standard deviation; this signal-to-noise relationship is known as the Rose criterion.[3][4]

Rose also originated the concept of detective quantum efficiency, today widely used in optical and X-ray imaging.

He died in 1990.[1]

US patents

edit

Honors and awards

edit

References

edit
  1. ^ a b c Narvaez, Alfonso (August 1, 1990). "Albert Rose, a Research Scientist Known for TV Tube, Dies at 80". The New York Times.
  2. ^ Johnson, Walter; Weimer, Paul K.; Williams, Richard (December 1991). "Obituary: Albert Rose". Physics Today. 44 (12): 98. Bibcode:1991PhT....44l..98J. doi:10.1063/1.2810377.
  3. ^ Rose, Albert (1973). Vision - Human and Electronic. Plenum Press. p. 10. ISBN 9780306307324. [...] to reduce the number of false alarms to below unity, we will need [...] a signal whose amplitude is 4-5 times larger than the RMS noise.
  4. ^ Debbie Stokes (2008). Principles and Practice of Variable Pressure/Environmental Scanning Electron Microscopy (VP-ESEM). John Wiley & Sons. p. 55. ISBN 9780470065402.
  5. ^ "Dr. Albert Rose". NAE Website.
  6. ^ Albert Rose - Memorial Tributes: Volume 6 - The National Academies Press. 1993. doi:10.17226/2231. ISBN 978-0-309-04847-7.
edit