Philosophy
Left to right:
William Shockley, John Bardeen, and Walter Brattain
1947
I am sure that there is some sound corporate reason for this move--NOT.
After six Nobel Prizes, the invention of the transistor, laser and countless contributions to computer science and technology, it is the end of the road for Bell Labs' fundamental physics research lab.
Alcatel-Lucent, the parent company of Bell Labs, is pulling out of basic science, material physics and semiconductor research and will instead be focusing on more immediately marketable areas such as networking, high-speed electronics, wireless, nanotechnology and software.
The idea is to align the research work in the Lab closer to areas that the parent company is focusing on, says Peter Benedict, spokesperson for Bell Labs and Alcatel-Lucent Ventures.
"In the new innovation model, research needs to keep addressing the need of the mother company," he says.
That view is shortsighted and may drastically curtail the Labs' ability to come up with truly innovative discoveries, respond critics.
"Fundamental physics is absolutely crucial to computing," says Mike Lubell, director of public affairs for the American Physical Society. "Say in the case of integrated circuits, there were many, many small steps that occurred along the way resulting from decades worth of work in matters of physics."
Bell Labs was one of the last bastions of basic research within the corporate world, which over the past several decades has largely focused its R&D efforts on applied research -- areas of study with more immediate prospects of paying off.
Without internally funded basic research, fundamental research has instead come to rely on academic and government-funded laboratories to do kind of long-term projects without immediate and obvious payback that Bell Labs used to historically do, says Lubell.
Most of the scientists working in the company's fundamental physics department have been reassigned, says Benedict. Nature Science, which first reported the news, says just four scientists are left working the fundamental physics department in Murray Hill, New Jersey. Benedict wouldn't confirm or deny that.
Computing and wireless technologies owe much to advancements in physics, though the connection may not always be immediately apparent. An example is the Global Positioning Systems or GPS.
For instance, an integral element of GPS are atomic clocks, which stemmed from the creation of the hydrogen maser.
The hydrogen maser, or hydrogen frequency standard, uses the properties of a hydrogen atom to serve as a precision frequency reference.
"GPS is based on very accurate timing mechanisms," says Lubell. "So the measure of time and the frequency standards that are used to do it date back to research in optical pumping which led to the development of hydrogen maser."
In the past Bell Labs was the place where such fundamental research that impacts the fields of both computing and physics could meet.
Bell Labs was founded in 1925 by Walter Gifford, then president of AT&T. AT&T, a monopoly, established Bell Telephone Laboratories, popularly known as Bell Labs, as a joint venture with Western Electric, AT&T's manufacturing subsidiary.
The Labs became the Mecca for researchers in science, computers and mathematics. Deregulation, however, forced AT&T in 1995 to spin off Bell and other parts of the company into Lucent Technologies. The move marked a shift in fortunes for the research arm as research budgets came to be trimmed and Alcatel-Lucent faced increasing pressure from stockholders.
"Bell Labs could do the kind of fundamental research it did in the past because it was functioning as part of a monopoly," says Lubell. "With that gone the landscape changed dramatically."
In recent years, Bell Labs' physics unit had its share of controversy when researcher J. Hendrik Schön was found to have published data in the area of molecular-scale transistors between 1998 and 2001 that had been manipulated and falsified.
That's a long way from where the Labs once stood with its position as a Nobel Prize magnet.
In 1937, Bell Labs researcher Clinton Davisson shared the Nobel Prize in physics for demonstrating the wave nature of matter.
Nearly twenty years later, in 1956 came the Nobel prize for inventing the transistor and it was shared by William Shockley, John Bardeen and Bell scientist Walter Brattain.
In the seventies, Bell Labs won two Nobel prizes in physics back-to-back in the years 1977 and 1978. Philip Anderson shared the Nobel for developing an improved understanding of the electronic structure of glass and magnetic materials. The next year Arno Penzias and Robert Wilson were feted for their discovery of cosmic microwave background radiation.
Former Bell Labs researcher Steven Chu shared the Nobel in 1997 for developing methods to cool and trap atoms with laser light. A year later Horst Stormer, Robert Laughlin, and Daniel Tsui were awarded a Nobel for the discovery and explanation of the fractional quantum Hall effect.
In the last few years, Lucent has sold its semiconductor business and that means research in areas connected to that had to be scaled back, especially in areas such as integrated circuits and Microelectromechanicals Systems (MEMS).
Meanwhile, Alcatel-Lucent continues to hack away at its jewels. Though Murray Hill in New Jersey, the company's U.S. headquarters, and the site of many great scientific discoveries remains safe, Alcatel-Lucent has sold its Holmdel campus. Holmdel's technological contributions include contributions to Telstar, the first communications satellite and Chu's Nobel Prize-winning work.
Still for fundamental physics research there will be life after Bell Labs, though it will be dependent on the whims of the federal government.
Increasingly, long-term research is being carried out in universities and national laboratories with federal grants, says Lubell.
For Bell Labs, yet another chapter in its storied history of comes to a close taking the once iconic institution closer to being just another research arm of a major corporation.
Deceased--Morgan Sparks
"Our Mr. Sun"--boomer classic
- Happy Birthday Robert Wilson
Today is the 75th birthday of Robert Wilson, an accidental Nobel laureate in physics. In 1964, Wilson and his partner Arno Allen Penzias were working at Bell labs in New Jersey developing a new ultra-sensitive antenna that could measure small amounts...
- "innovation" Is The Key Word In Scientific Achievement
"How curiosity begat Curiosity" Scientific breakthroughs come from investing in science education and basic research. by Ahmed Zewail August 19th, 2012 Los Angeles Times On Aug. 5, I was among those who witnessed the rover Curiosity landing on Mars...
- Deceased--willard S. Boyle
Willard S. Boyle August 19th, 1924 to May 7th, 2011 Willard S. Boyle, left, and George E. Smith in 1974. Their work on the charge-coupled device won them a Nobel Prize in 2009. "Willard S. Boyle, Father of Digital Eye, Dies at 86" by Douglas Martin...
- Jocelyn Bell Burnell--profile
Science Museum... A photograph of Jocelyn Bell Burnell (born 1943) at the Mullard Radio Astronomy Observatory at Cambridge University, taken for the Daily Herald newspaper in 1968. Jocelyn Bell studied physics at Glasgow University and entered Cambridge...
- Deceased--morgan Sparks
Morgan Sparks [left] Bell Labs 1951 The New York Times May 8th, 2008 Morgan Sparks, Bell Scientist, Dies at 91 by Douglas Martin Morgan Sparks, who made critical contributions to developing the second-generation transistor, which became a building block...
Philosophy
Bell Lab's physics research to be shut down
Left to right: William Shockley, John Bardeen, and Walter Brattain
1947
I am sure that there is some sound corporate reason for this move--NOT.
"Bell Labs Kills Fundamental Physics Research"
by
Priya Ganapati
August 27th, 2008
Wired
by
Priya Ganapati
August 27th, 2008
Wired
After six Nobel Prizes, the invention of the transistor, laser and countless contributions to computer science and technology, it is the end of the road for Bell Labs' fundamental physics research lab.
Alcatel-Lucent, the parent company of Bell Labs, is pulling out of basic science, material physics and semiconductor research and will instead be focusing on more immediately marketable areas such as networking, high-speed electronics, wireless, nanotechnology and software.
The idea is to align the research work in the Lab closer to areas that the parent company is focusing on, says Peter Benedict, spokesperson for Bell Labs and Alcatel-Lucent Ventures.
"In the new innovation model, research needs to keep addressing the need of the mother company," he says.
That view is shortsighted and may drastically curtail the Labs' ability to come up with truly innovative discoveries, respond critics.
"Fundamental physics is absolutely crucial to computing," says Mike Lubell, director of public affairs for the American Physical Society. "Say in the case of integrated circuits, there were many, many small steps that occurred along the way resulting from decades worth of work in matters of physics."
Bell Labs was one of the last bastions of basic research within the corporate world, which over the past several decades has largely focused its R&D efforts on applied research -- areas of study with more immediate prospects of paying off.
Without internally funded basic research, fundamental research has instead come to rely on academic and government-funded laboratories to do kind of long-term projects without immediate and obvious payback that Bell Labs used to historically do, says Lubell.
Most of the scientists working in the company's fundamental physics department have been reassigned, says Benedict. Nature Science, which first reported the news, says just four scientists are left working the fundamental physics department in Murray Hill, New Jersey. Benedict wouldn't confirm or deny that.
Computing and wireless technologies owe much to advancements in physics, though the connection may not always be immediately apparent. An example is the Global Positioning Systems or GPS.
For instance, an integral element of GPS are atomic clocks, which stemmed from the creation of the hydrogen maser.
The hydrogen maser, or hydrogen frequency standard, uses the properties of a hydrogen atom to serve as a precision frequency reference.
"GPS is based on very accurate timing mechanisms," says Lubell. "So the measure of time and the frequency standards that are used to do it date back to research in optical pumping which led to the development of hydrogen maser."
In the past Bell Labs was the place where such fundamental research that impacts the fields of both computing and physics could meet.
Bell Labs was founded in 1925 by Walter Gifford, then president of AT&T. AT&T, a monopoly, established Bell Telephone Laboratories, popularly known as Bell Labs, as a joint venture with Western Electric, AT&T's manufacturing subsidiary.
The Labs became the Mecca for researchers in science, computers and mathematics. Deregulation, however, forced AT&T in 1995 to spin off Bell and other parts of the company into Lucent Technologies. The move marked a shift in fortunes for the research arm as research budgets came to be trimmed and Alcatel-Lucent faced increasing pressure from stockholders.
"Bell Labs could do the kind of fundamental research it did in the past because it was functioning as part of a monopoly," says Lubell. "With that gone the landscape changed dramatically."
In recent years, Bell Labs' physics unit had its share of controversy when researcher J. Hendrik Schön was found to have published data in the area of molecular-scale transistors between 1998 and 2001 that had been manipulated and falsified.
That's a long way from where the Labs once stood with its position as a Nobel Prize magnet.
In 1937, Bell Labs researcher Clinton Davisson shared the Nobel Prize in physics for demonstrating the wave nature of matter.
Nearly twenty years later, in 1956 came the Nobel prize for inventing the transistor and it was shared by William Shockley, John Bardeen and Bell scientist Walter Brattain.
In the seventies, Bell Labs won two Nobel prizes in physics back-to-back in the years 1977 and 1978. Philip Anderson shared the Nobel for developing an improved understanding of the electronic structure of glass and magnetic materials. The next year Arno Penzias and Robert Wilson were feted for their discovery of cosmic microwave background radiation.
Former Bell Labs researcher Steven Chu shared the Nobel in 1997 for developing methods to cool and trap atoms with laser light. A year later Horst Stormer, Robert Laughlin, and Daniel Tsui were awarded a Nobel for the discovery and explanation of the fractional quantum Hall effect.
In the last few years, Lucent has sold its semiconductor business and that means research in areas connected to that had to be scaled back, especially in areas such as integrated circuits and Microelectromechanicals Systems (MEMS).
Meanwhile, Alcatel-Lucent continues to hack away at its jewels. Though Murray Hill in New Jersey, the company's U.S. headquarters, and the site of many great scientific discoveries remains safe, Alcatel-Lucent has sold its Holmdel campus. Holmdel's technological contributions include contributions to Telstar, the first communications satellite and Chu's Nobel Prize-winning work.
Still for fundamental physics research there will be life after Bell Labs, though it will be dependent on the whims of the federal government.
Increasingly, long-term research is being carried out in universities and national laboratories with federal grants, says Lubell.
For Bell Labs, yet another chapter in its storied history of comes to a close taking the once iconic institution closer to being just another research arm of a major corporation.
Deceased--Morgan Sparks
"Our Mr. Sun"--boomer classic
- Happy Birthday Robert Wilson
Today is the 75th birthday of Robert Wilson, an accidental Nobel laureate in physics. In 1964, Wilson and his partner Arno Allen Penzias were working at Bell labs in New Jersey developing a new ultra-sensitive antenna that could measure small amounts...
- "innovation" Is The Key Word In Scientific Achievement
"How curiosity begat Curiosity" Scientific breakthroughs come from investing in science education and basic research. by Ahmed Zewail August 19th, 2012 Los Angeles Times On Aug. 5, I was among those who witnessed the rover Curiosity landing on Mars...
- Deceased--willard S. Boyle
Willard S. Boyle August 19th, 1924 to May 7th, 2011 Willard S. Boyle, left, and George E. Smith in 1974. Their work on the charge-coupled device won them a Nobel Prize in 2009. "Willard S. Boyle, Father of Digital Eye, Dies at 86" by Douglas Martin...
- Jocelyn Bell Burnell--profile
Science Museum... A photograph of Jocelyn Bell Burnell (born 1943) at the Mullard Radio Astronomy Observatory at Cambridge University, taken for the Daily Herald newspaper in 1968. Jocelyn Bell studied physics at Glasgow University and entered Cambridge...
- Deceased--morgan Sparks
Morgan Sparks [left] Bell Labs 1951 The New York Times May 8th, 2008 Morgan Sparks, Bell Scientist, Dies at 91 by Douglas Martin Morgan Sparks, who made critical contributions to developing the second-generation transistor, which became a building block...