Physics
Today: [First published 6:10am EST 10/6/09, last updated
11:33am EST] The
Royal Swedish Academy of
Sciences has decided to award the
Nobel
Prize in Physics for 2009 with one half of the $1.4 million
to
Charles
K. KaoStandard Telecommunication Laboratories, Harlow, UK,
and Chinese University of Hong Kong"for groundbreaking
achievements concerning the transmission of light in fibers for
optical communication"and the other half jointly to
Willard
S. Boyle and
George
E. SmithBell Laboratories, Murray Hill, NJ, USA"for the
invention of an imaging semiconductor circuit – the CCD
sensor."
Bell Labs researchers Willard Boyle (left) and George
Smith (right) with the charge-coupled device. Photo taken in
1974.Photo credit: Alcatel-Lucent/Bell Labs."The [transfer of]
information in society today is completely based on [this
research]," said Joseph Nordgren, the chair of the Nobel Prize
committee in a press conference announcing the prize. "The
practical implications for this research were enormous...It is
something that has changed our life, not just in science but in
society as whole."Fred Dylla, CEO of the
American Institute of Physics,
which publishes
Physics Today, concurs. "When combined with the laser
and the transistor, the invention of an efficient, low-loss
optical fiber has made nearly instantaneous communication
possible across the entire globe. This mode of communication is
essential for high-speed internet and forms the optical
backbone of 21st century commerce. The CCD sensor has
revolutionized technical, professional, and consumer
photography in the last few decades. Taken together these
inventions may have had a greater impact on humanity than any
others in the last half century.""Optics technologies are
exceptionally significant for scientific developments in
today’s world,"
said
Elizabeth Rogan, CEO, of the Optical Society of America.
"We congratulate Kao, Boyle and Smith on this much-deserved
recognition."
KaoIn 1966, Charles K. Kao made a discovery
that led to a breakthrough in fiber optics. He carefully
calculated how to transmit light over long distances via
optical glass fibers. With a fiber of purest glass it would be
possible to transmit light signals over 100 kilometers,
compared to only 20 meters for the fibers available in the
1960s. "It was the impurities, and other limiting factors such
as scattering, atomic motion, that limited glass fibers in the
1960s," said Nordgren.Kao
presented
his research at the 1966 London meeting of the Institution of
Electrical Engineers. The first ultrapure fiber was
successfully fabricated just four years later, in 1970 by the
Corning
company."The Nobel Prize isn't awarded for lifetime
achievement, it is given for diverse research, clearly Kao's
work achieved a breakthrough that led to a whole new research
and technology field," said Nordgren.
Boyle and SmithIn 1969 Willard S. Boyle and
George E. Smith invented the first successful imaging
technology using a digital sensor, a CCD (
charge-coupled
device).The two researchers came up with the idea in just
an hour of brainstorming, according to Boyle who spoke during a
press conference today. "It is amazing that a [the CCD device]
was created so quickly," said Nordgren. "There are so many
breakthroughs that came out of research at Bell labs...it's
unfortunate that during the 80s, US companies abandoned the
idea of having a scientific environment such as Bell labs,"
said Nordgren.Boyle said that to him, the biggest achievement
of his work was seeing images transmitted back from Mars. "It
wouldn't have been possible without our invention," he said.The
CCD
technology makes use of the
photoelectric
effect, as theorized by
Albert
Einstein and for which he was awarded the
1921
Nobel Prize. By this effect, light is transformed into
electric signals. The challenge, when designing an image
sensor, was to gather and read out the signals in a large
number of image points, pixels, in a short time.The CCD is the
digital camera's electronic eye. It revolutionized how images
were collected from spacecraft, by telescopes, and in medical
imaging, and has eventually replaced the film camera in every
aspect of photography.
Related Physics Today articles on fiber optics
Maurer and Kao
win Ericsson Prize, May 1979
An Overview of
Lightguide communication, Solomon J. Buchsbaum, May 1976
The fiber
lightguide, Alan G. Chynoweth, May 1976
Fiber optics,
Alastair M. Glass, October 1993
The golden age of
optical fiber amplifiers, Emmanuel Desurvire, January 1994
Related Physics Today articles on CCDs
Charge-coupled
devices would be cheap, compact Gloria B. Lubkin, October
1970
From photons to
bits, Rajinder P. Khosla, December 1992
Other Related Physics Today Resources
Industrial
R&D in transition, R. Joseph Anderson and Orville R.
Butler, July 2009
The bell tolls
for Bell Labs Toni Feder, October 2008
Industry R&D
forecast is bullish despite concerns over talent dearth,
Jermey N. A. Matthews, April 2008
Bell Labs
fissions, yielding AT&T Bell Labs and Bellcore, Gloria
B. Lubkin, May 1984
Related Resources
2009
Physics Nobel Prize Resources American Institute of Physics
A
2004 oral history interview with Charles K. Kao IEEE
History Center
A
2001 oral history interview with George E. Smith IEEE
History Center
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