Youth and education Abdus Salam was born on 29 January 1926 in the
Punjab Province of
British Raj (present day in
Pakistan) into a
Punjabi family professing
Ahmadi Islam. He belonged to the
Muslim Rajput community; his son Ahmad Salam later recounted that he would tell him stories of Rajput cultural history "of which he was very proud". As per Jagjit Singh in his biography of Salam, his family traced its genealogy back to a Rajput prince named Buddahn who converted to Islam at the hands of a
Sufi preacher and later founded the city of
Jhang around the year 1160. Salam was the son of Chaudhary Muhammad Hussain, a school teacher of Jhang and Hajirah who belonged to Faizullah Chak near
Batala. , where Salam studied. Salam established an early reputation in Punjab for outstanding academic performance. At age 14, he scored the highest marks ever recorded for the entrance examination of the
Punjab University, earning a full scholarship to the
Government College of Lahore.'' As a fourth-year student, he published an elegant solution for a mathematical problem originally studied by
Srinivasa Ramanujan. In 1944, his mathematics exam results set a new Punjab record. Salam also excelled in
Urdu and
English literature, which could have led him to pursue further studies in English. However, on the recommendation of a mentor, he chose to continue with an
M.A. in mathematics. At his father's urging, Salam attempted to enter the
Indian Civil Service (ICS), considered the most prestigious career path for young graduates. He applied to the
Indian Railways but was rejected after failing the medical optical tests; examiners also ruled that he was too young to qualify. In 1950, he received the
Smith's Prize from Cambridge University for the most outstanding pre-doctoral contribution to Physics. After finishing his degrees,
Fred Hoyle advised Salam to spend another year in the
Cavendish Laboratory to do research in
experimental physics, but Salam had no patience for carrying out long experiments in the laboratory. His doctoral thesis titled "Developments in quantum theory of fields" contained comprehensive and fundamental work in
quantum electrodynamics. By the time it was published in 1951, it had already gained him an international reputation and the
Adams Prize. During his doctoral studies, his mentors challenged him to solve within one year an intractable problem which had defied such great minds as
Paul Dirac and
Richard Feynman. He began to supervise the education of students who were particularly influenced by him. As a result, Riazuddin remained the only student of Salam who had the privilege to study under Salam at the undergraduate and post-graduate level in Lahore, and
post-doctoral level in Cambridge University. In 1953, Salam was unable to establish a research institute in Lahore, as he faced strong opposition from his peers. Salam went back to Cambridge and joined
St John's College. During 1957, his tenure at
Imperial College, London started. As time passed, this department became one of the prestigious research departments that included well known physicists such as
Steven Weinberg,
Tom Kibble,
Gerald Guralnik,
C. R. Hagen,
Riazuddin, and
John Ward. At Cambridge and Imperial College he formed a group of theoretical physicists, the majority of whom were his Pakistani students. At age 33, Salam became one of the youngest persons to be elected a
Fellow of the Royal Society (FRS) in 1959. and to whom he presented his research work on neutrinos. Oppenheimer and Salam discussed the foundation of electrodynamics, problems and their solution. His dedicated personal assistant was Jean Bouckley. In 1980, Salam became a foreign fellow of the
Bangladesh Academy of Sciences.
Scientific career Early in his career, Salam made an important and significant contribution in
quantum electrodynamics and
quantum field theory, including its extension into
particle and
nuclear physics. In his early career in Pakistan, Salam was greatly interested in mathematical series and their relation to physics. Salam had played an influential role in the advancement of nuclear physics, but he maintained and dedicated himself to mathematics and theoretical physics and focused Pakistan to do more research in theoretical physics. Salam had worked on theory of the
neutrino – an elusive particle that was first postulated by
Wolfgang Pauli in the 1930s. Salam introduced
chiral symmetry in the theory of neutrinos. The introduction of chiral symmetry played crucial role in subsequent development of the
theory of electroweak interactions. Salam later passed his work to
Riazuddin, who made pioneering contributions in neutrinos. Salam introduced the massive
Higgs bosons to the theory of the
Standard Model, where he later predicted the existence of
proton decay. In 1963, Salam published his theoretical work on the
vector meson. The paper introduced the interaction of vector meson, photon (vector
electrodynamics), and the
renormalisation of vector mesons' known mass after the interaction. In 1961, Salam began to work with
John Clive Ward on
symmetries and
electroweak unification. In 1964, Salam and Ward worked on a
Gauge theory for the
weak and
electromagnetic interaction, subsequently obtaining
SU(2) ×
U(1) model. Salam was convinced that all the
elementary particle interactions are actually the gauge interactions. In 1968, together with
Weinberg and
Sheldon Glashow, Salam formulated the mathematical concept of their work. While in Imperial College, Salam, along with Glashow and
Jeffrey Goldstone, mathematically proved the
Goldstone's theorem, that a massless
spin-zero object must appear in a theory as a result of spontaneous breaking of a continuous
global symmetry. In 1968, together with
Weinberg and
Sheldon Glashow, Salam finally formulated the mathematical concept of their work. In 1966, Salam carried out pioneering work on a
hypothetical particle. Salam showed the possible
electromagnetic interaction between the
Magnetic monopole and the
C-violation, thus he formulated the
magnetic photon. Following the publication of
PRL Symmetry Breaking papers in 1964, Steven Weinberg and Salam were the first to apply the Higgs mechanism to
electroweak symmetry breaking. Salam provided a mathematical postulation for the interaction between the Higgs boson and the electroweak symmetry theory. In 1972, Salam began to work with
Indian-American theoretical physicist
Jogesh Pati. Pati wrote to Salam several times expressing interest to work under Salam's direction, in response to which Salam eventually invited Pati to the ICTP seminar in Pakistan. Salam suggested to Pati that there should be some deep reason why the protons and electrons are so different and yet carry equal but opposite electric charge. Protons are composed of quarks, but the electroweak theory was concerned only with the electrons and neutrinos, with nothing postulated about quarks. If all of nature's ingredients could be brought together in one new symmetry, it might reveal a reason for the various features of these particles and the forces they feel. This led to the development of
Pati–Salam model in particle physics. In 1973, Salam and Jogesh Pati were the first to notice that since
Quarks and
Leptons have very similar
SU(2) ×
U(1) representation content, they all may have similar entities. They provided a simple realisation of the quark-lepton symmetry by postulating that
lepton number was a fourth quark
colour, dubbed "violet". Physicists had believed that there were four fundamental forces of nature: the gravitational force, the strong and weak nuclear forces, and the electromagnetic force. Salam had worked on the unification of these forces from 1959 with Glashow and Weinberg. While at Imperial College London, Salam successfully showed that weak nuclear forces are not really different from electromagnetic forces, and two could inter-convert. Salam provided a theory that shows the unification of two fundamental forces of nature, weak nuclear forces and the electromagnetic forces, one into another. Only one known official replica of the Nobel Prize Medal was ever produced by the Mint of Pakistan in 1979/80. This medal has a large test cut and damage from two to three o'clock. The replica medal was sold at auction to an unknown bidder on April 23, 2025. In the 1970s Salam continued trying to unify forces by including the strong interaction in a
Grand Unified Theory. ==Government work==