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John Bardeen (; May 23, 1908 – January 30, 1991) was an American and electrical engineer. He is the only person to be awarded the Nobel Prize in Physics twice: first in 1956 with and Walter Brattain for the invention of the ; and again in 1972 with and John Robert Schrieffer for a fundamental theory of conventional superconductivity known as the . and Vicki Daitch. True Genius: the Life and Science of John Bardeen. National Academy Press, 2002.

The transistor revolutionized the electronics industry, making possible the development of almost every modern electronic device, from to , and ushering in the . Bardeen's developments in superconductivity—for which he was awarded his second Nobel Prize—are used in nuclear magnetic resonance spectroscopy (NMR), medical magnetic resonance imaging (MRI), and superconducting quantum circuits.

Born and raised in , Bardeen received a Ph.D. in physics from Princeton University. After serving in World War II, he was a researcher at and a professor at the University of Illinois. In 1990, Bardeen appeared on Life magazine's list of "100 Most Influential Americans of the Century."

Bardeen is the first of only three people to have won multiple Nobel Prizes in the same category (the others being and Karl Barry Sharpless in chemistry), and one of five persons with .

Education and early life
Bardeen was born in Madison, Wisconsin, on May 23, 1908. He was the son of Charles Bardeen, the first dean of the University of Wisconsin Medical School.

Bardeen attended University of Wisconsin High School in Madison. He graduated from the school in 1923 at age 15. He could have graduated several years earlier, but this was postponed because he took courses at another high school and because of his mother's death. Bardeen entered the University of Wisconsin in 1923. While in college, he joined the fraternity. He raised a part of the needed membership fees by playing billiards. Bardeen was initiated as a member of Tau Beta Pi engineering honor society. Not wanting to be an academic like his father, Bardeen chose engineering. He also felt that engineering had good job prospects.

Bardeen received his Bachelor of Science degree in electrical engineering in 1928 from the University of Wisconsin. Despite taking a year off to work in Chicago, he graduated in 1928. Taking all the graduate courses in physics and mathematics that had interested him, Bardeen graduated in five years instead of the usual four. This allowed him time to complete his master's thesis, supervised by Leo J. Peters. He received his Master of Science degree in electrical engineering in 1929 from Wisconsin.

Bardeen furthered his studies by staying on at Wisconsin, but he eventually went to work for Gulf Research Laboratories, the research arm of the Corporation that was based in . From 1930 to 1933, Bardeen worked there on the development of methods for the interpretation of magnetic and gravitational surveys. He worked as a geophysicist. After the work failed to keep his interest, he applied and was accepted to the graduate program in mathematics at Princeton University.

As a graduate student, Bardeen studied mathematics and physics. Under physicist , he wrote his on a problem in solid-state physics. Before completing his thesis, he was offered a position as junior fellow of the Society of Fellows at Harvard University in 1935. He spent the next three years there, from 1935 to 1938, working with to-be Nobel laureates in physics John Hasbrouck van Vleck and Percy Williams Bridgman on problems in cohesion and electrical conduction in metals,and also did some work on level density of nuclei. He received his Ph.D. in mathematical physics from Princeton in 1936.

Career and research

World War II service
From 1941 to 1944, Bardeen headed the group working on and and mine and torpedo countermeasures at the Naval Ordnance Laboratory. During this period, his wife Jane gave birth to a son (Bill, born in 1941) and a daughter (Betsy, born in 1944).Pines, David. " John Bardeen". (2013).

Bell Labs
In October 1945, Bardeen began work at as a member of a solid-state physics group led by and chemist Stanley Morgan. Other personnel working in the group were , physicist , chemist Robert Gibney, electronics expert Hilbert Moore and several technicians. He moved his family to Summit, New Jersey.
(2024). 9780309084086, Joseph Henry Press. .

The assignment of the group was to seek a solid-state alternative to fragile glass amplifiers. Their first attempts were based on Shockley's ideas about using an external electrical field on a to affect its conductivity. These experiments mysteriously failed every time in all sorts of configurations and materials. The group was at a standstill until Bardeen suggested a theory that invoked surface states that prevented the field from penetrating the semiconductor. The group changed its focus to study these surface states, meeting almost daily to discuss the work. The rapport of the group was excellent and ideas were freely exchanged.

(1997). 9780393041248, W. W. Norton & Company. .
By the winter of 1946, they had enough results that Bardeen submitted a paper on the surface states to . Brattain started experiments to study the surface states through observations made while shining a bright light on the semiconductor's surface. This led to several more papers (one of them co-authored with Shockley), which estimated the density of the surface states to be more than enough to account for their failed experiments. The pace of the work picked up significantly when they started to surround point contacts between the semiconductor and the conducting wires with . Moore built a circuit that allowed them to vary the frequency of the input signal easily and suggested that they use glycol borate (gu), a viscous chemical that did not evaporate. Finally, they began to get some evidence of power amplification when Pearson, acting on a suggestion by Shockley,
(1997). 9780393041248, W. W. Norton & Company. .
put a voltage on a droplet of gu placed across a p–n junction.

Invention of the transistor
On December 23, 1947, Bardeen and Brattain were working without Shockley when they succeeded in creating a point-contact transistor that achieved amplification. By the next month, ' patent attorneys started to work on the patent applications.

Bell Labs' attorneys soon discovered that Shockley's field effect principle had been anticipated and patented in 1930 by Julius Lilienfeld, who filed his -like patent in Canada on October 22, 1925.

Shockley publicly took the lion's share of the credit for the invention of the transistor; this led to a deterioration of Bardeen's relationship with him.Diane Kormos Buchwald. American Scientist 91.2 (Mar.–Apr. 2003): 185–186. Bell Labs management, however, consistently presented all three inventors as a team. Shockley eventually infuriated and alienated Bardeen and Brattain, essentially blocking the two from working on the junction transistor. Bardeen began pursuing a theory for superconductivity and left Bell Labs in 1951. Brattain refused to work with Shockley further and was assigned to another group. Neither Bardeen nor Brattain had much to do with the development of the transistor beyond the first year after its invention. Crystal Fire p. 278R. Kessler. " Absent at the Creation", Washington Post Magazine, 1997.

The "transistor" (a of "transconductance" and "resistor") was 1/50 the size of the it replaced in televisions and radios, used far less power, was far more reliable, and it allowed electrical devices to become more compact.

University of Illinois at Urbana–Champaign
By 1951, Bardeen was looking for a new job. Fred Seitz, a friend of Bardeen, convinced the University of Illinois at Urbana–Champaign to make Bardeen an offer of $10,000 a year. Bardeen accepted the offer and left Bell Labs, joining the engineering and physics faculties at Illinois in 1951, where he was professor of electrical engineering and of physics.

At Illinois, he established two major research programs, one in the electrical engineering department and one in the physics department. The research program in the electrical engineering department dealt with both experimental and theoretical aspects of semiconductors, and the research program in the physics department dealt with theoretical aspects of macroscopic quantum systems, particularly superconductivity and quantum liquids.

He was an active professor at Illinois from 1951 to 1975 and then became professor emeritus. In his later life, Bardeen remained active in academic research, during which time he focused on understanding the flow of electrons in charge density waves (CDWs) through metallic linear chain compounds. His proposals that CDW electron transport is a collective quantum phenomenon (see Macroscopic quantum phenomena) were initially greeted with skepticism. However, experiments reported in 2012 show oscillations in CDW current versus magnetic flux through tantalum trisulfide rings, similar to the behavior of superconducting quantum interference devices (see and Aharonov–Bohm effect), lending credence to the idea that collective CDW electron transport is fundamentally quantum in nature. (See quantum mechanics.) Bardeen continued his research throughout the 1980s, and published articles in Physical Review Letters and less than a year before he died.

A collection of Bardeen's personal papers are held by the University of Illinois Archives.

Nobel Prize in Physics in 1956
In 1956, John Bardeen shared the Nobel Prize in Physics with of Semiconductor Laboratory of Beckman Instruments and of Bell Telephone Laboratories " for their researches on semiconductors and their discovery of the transistor effect".

At the Nobel Prize ceremony in , Brattain and Shockley received their awards that night from King Gustaf VI Adolf. Bardeen brought only one of his three children to the Nobel Prize ceremony. King Gustav chided Bardeen because of this, and Bardeen assured the King that the next time he would bring all his children to the ceremony. He kept his promise.

BCS theory
In 1957, Bardeen, in collaboration with and his doctoral student John Robert Schrieffer, proposed the standard theory of superconductivity known as the (named for their initials).

Josephson effect controversy
Bardeen became interested in superconducting tunnelling in the summer of 1960 after consulting for the General Electric Research Laboratory in Schenectady, New York where he learned about experiments done by at the Rensselaer Polytechnic Institute which suggested that electrons from a normal material could tunnel into a superconducting one.

In June 8, 1962, , then 23, submitted to his prediction of a super-current flow across a barrier, effect which later became known as the . Bardeen challenged Josephson's theory on a note in his own paper received ten days later by Physical Review Letters:

In a recent note, Josephson uses a somewhat similar formulation to discuss the possibility of superfluid flow across the tunneling region, in which no quasi-particles are created. However, as pointed out by the author (reference 3), pairing does not extend into the barrier, so that there can be no such superfluid flow.

The matter was further discussed on the 8th International Conference on Low Temperature Physics held September 16 to 22, 1962 at Queen Mary University of London. While Josephson was presenting his theory, Bardeen rose to describe his objections. After an intense debate both men were unable to reach a common understanding, and at points Josephson repeatedly asked Bardeen, "Did you calculate it? No? I did."

In 1963, experimental evidence and further theoretical clarifications were discovered supporting the Josephson effect, notably in a paper by Philip W. Anderson and John Rowell from . After this, Bardeen came to accept Josephson's theory and publicly withdrew his previous opposition to it at a conference held in August 1963. Bardeen also invited Josephson as a postdoc in Illinois for the academic year of 1965–1966, and later nominated Josephson and Giaever for the Nobel Prize in Physics, which they received in 1973.

Nobel Prize in Physics in 1972
In 1972, Bardeen shared the Nobel Prize in Physics with Leon N Cooper of and John Robert Schrieffer of the University of Pennsylvania "for their jointly developed theory of superconductivity, usually called the BCS-theory". This was Bardeen's second Nobel Prize in Physics. He became the first person to win two Nobel Prizes in the same field.

Bardeen brought his three children to the Nobel Prize ceremony in Stockholm. Bardeen gave much of his Nobel Prize money to fund the Memorial Lectures at .

In the late 1960s, Bardeen felt that Cooper and Schrieffer deserved the Nobel prize for BCS. He was concerned that they might not be awarded because of the 's reticence to award the same person twice, which would be his case as a co-author of the theory. Bardeen nominated scientists who worked on superconducting tunneling effects such as the for the prize in 1967: , and . He recognized that because the tunneling developments depended on superconductivity, it would increase the chances that BCS itself would be awarded first. He also reasoned that the Nobel Committee had a predilection for multinational teams, which was the case for his tunneling nominees, each being from a different country. Bardeen renewed the nominations in 1971, 1972, when BCS received the prize, and finally 1973, when tunneling was awarded.

He is the only double laureate in physics, and one of three of the same prize; the others are who won the 1958 and 1980 Prizes in Chemistry and Karl Barry Sharpless who won the 2001 and 2022 Prizes in chemistry.

Other awards
In addition to being awarded the Nobel prize twice, Bardeen has numerous other awards including:
  • 1952 Franklin Institute's Stuart Ballantine Medal.
  • 1954 elected a member of the United States National Academy of Sciences
  • 1958 elected to the American Philosophical Society
  • 1959 elected a Fellow of the American Academy of Arts and Sciences
  • 1965 National Medal of Science.
  • 1971 IEEE Medal of Honor for "his profound contributions to the understanding of the conductivity of solids, to the invention of the transistor, and to the microscopic theory of superconductivity."
  • Elected a Foreign Member of the Royal Society (ForMemRS) in 1973.
  • 1975 .
  • On January 10, 1977, John Bardeen was presented with the Presidential Medal of Freedom by President . He was represented at the ceremony by his son, William Bardeen.
  • Bardeen was one of 11 recipients given the Third Century Award from President George H. W. Bush in 1990 for "exceptional contributions to American society" and was granted a gold medal from the Soviet Academy of Sciences in 1988.
  • 1987 Golden Plate Award of the American Academy of Achievement

Bardeen was also an important adviser to . Though quiet by nature, he took the uncharacteristic step of urging Xerox executives to keep their California research center, , afloat when the parent company was suspicious that its research center would amount to little.

Personal life
Bardeen married Jane Maxwell on July 18, 1938. While at Princeton, he met Jane during a visit to his old friends in .

Bardeen was a scientist with a very unassuming personality. While he served as a professor for almost 40 years at the University of Illinois, he was best remembered by neighbors for hosting cookouts where he would prepare food for his friends, many of whom were unaware of his accomplishments at the university. He would always ask his guests if they liked the hamburger bun toasted (since he liked his that way). He enjoyed playing and going on with his family. said that because he "differed radically from the popular stereotype of 'genius' and was uninterested in appearing other than ordinary, the public and the media often overlooked him."

When Bardeen was asked about his beliefs during a 1988 interview, he responded: "I am not a religious person, and so do not think about it very much". However, he has also said: "I feel that science cannot provide an answer to the ultimate questions about the meaning and purpose of life." Bardeen did believe in a code of moral values and behavior.

(2024). 9780309169547, Joseph Henry Press. .
John Bardeen's children were taken to church by his wife, who taught Sunday school and was a church elder.Daitch & Hoddeson (2002). True Genius:: The Life and Science of John Bardeen. Joseph Henry Press Despite this, he and his wife made it clear that they did not have faith in an afterlife and other religious ideas.
(2024). 9780309169547, Joseph Henry Press.
He was the father of James M. Bardeen, William A. Bardeen, and daughter Elizabeth.

Bardeen died of at age 82 at Brigham and Women's Hospital in , , on January 30, 1991. Although he lived in Champaign-Urbana, he had come to Boston for medical consultation. Bardeen and his wife Jane (1907–1997) are buried in Forest Hill Cemetery, Madison, Wisconsin. They were survived by three children, James, William and Elizabeth Bardeen Greytak, and six grandchildren.

In honor of Bardeen, the engineering quadrangle at the University of Illinois at Urbana-Champaign is named the Bardeen Quad.

Also in honor of Bardeen, Corporation endowed a $3 million John Bardeen professorial chair at the University of Illinois at Urbana-Champaign, beginning in 1990. Sony Corporation owed much of its success to commercializing Bardeen's transistors in portable TVs and radios, and had worked with Illinois researchers. , the John Bardeen Professor is .

At the time of Bardeen's death, then-University of Illinois chancellor Morton Weir said, "It is a rare person whose work changes the life of every American; John's did."

Bardeen was honored on a March 6, 2008, United States as part of the "American Scientists" series designed by artist . The $0.41 stamp was unveiled in a ceremony at the University of Illinois. His citation reads: "Theoretical physicist John Bardeen (1908–1991) shared the Nobel Prize in Physics twice—in 1956, as co-inventor of the transistor and in 1972, for the explanation of superconductivity. The transistor paved the way for all modern electronics, from computers to microchips. Diverse applications of superconductivity include infrared sensors and medical imaging systems." The other scientists on the "American Scientists" sheet include biochemist , chemist and astronomer .

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