Abdus Salam
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- The Encyclopedia of Science Fiction - Wyndham Lewis
- English Heritage - Abdus Salam (1926–1996)
- History of Islam - Abdus Salam – Nobel Laureate in Physics
- Oxford Dictionary of National Biography - Biography of Muhammad Abdus Salam
- BBC Culture - Abdus Salam: The Muslim science genius forgotten by history
- American Institute of Physics - Biography of Abdus Salam
- The Nobel Prize - Abdus Salam
- Born:
- Jan. 29, 1926, Jhang Maghiāna, Punjab, India [now in Pakistan]
- Died:
- Nov. 21, 1996, Oxford, Eng. (aged 70)
- Awards And Honors:
- Copley Medal (1990)
- Nobel Prize (1979)
- Subjects Of Study:
- electromagnetism
- electroweak theory
- weak interaction
- On the Web:
- English Heritage - Abdus Salam (1926–1996) (Mar. 22, 2024)
Abdus Salam (born Jan. 29, 1926, Jhang Maghiāna, Punjab, India [now in Pakistan]—died Nov. 21, 1996, Oxford, Eng.) was a Pakistani nuclear physicist who was the corecipient with Steven Weinberg and Sheldon Lee Glashow of the 1979 Nobel Prize for Physics for their work in formulating the electroweak theory, which explains the unity of the weak nuclear force and electromagnetism.
Salam attended the Government College at Lahore, and in 1952 he received his Ph.D. in theoretical physics from the University of Cambridge. He returned to Pakistan as a professor of mathematics in 1951–54 and then went back to Cambridge as a lecturer in mathematics. He became professor of theoretical physics at the Imperial College of Science and Technology, London, in 1957. Salam was the first Pakistani and the first Muslim scientist to win a Nobel Prize. In 1964 he helped found the International Centre for Theoretical Physics at Trieste, Italy, in order to provide support for physicists from Third World countries. He served as the centre’s director until his death.
Salam carried out his Nobel Prize–winning research at the Imperial College of Science and Technology in the 1960s. His hypothetical equations, which demonstrated an underlying relationship between the electromagnetic force and the weak nuclear force, postulated that the weak force must be transmitted by hitherto-undiscovered particles known as weak vector bosons, or W and Z bosons. Weinberg and Glashow reached a similar conclusion using a different line of reasoning. The existence of the W and Z bosons was eventually verified in 1983 by researchers using particle accelerators at CERN.