Early career In 1935, Chandrasekhar was invited by the director of the Harvard Observatory,
Harlow Shapley, to be a visiting lecturer in theoretical astrophysics for a three-month period. He travelled to the United States in December. During his visit to Harvard, Chandrasekhar greatly impressed Shapley, but declined his offer of a Harvard research fellowship. At the same time, Chandrasekhar met
Gerard Kuiper, a noted Dutch astrophysical observationalist who was then a leading authority on white dwarfs. Kuiper had recently been recruited by
Otto Struve, the director of the
Yerkes Observatory in
Williams Bay, Wisconsin, which was run by the
University of Chicago, and the university's president,
Robert Maynard Hutchins. Having known of Chandrasekhar, Struve was then considering him for one of three faculty posts in astrophysics, along with Kuiper; the other opening had been filled by
Bengt Stromgren, a Danish theorist. Chandrasekhar remained at the University of Chicago for the rest of his career, 1937-1995. He was promoted to associate professor in 1941 and to full professor two years later at the age of 33. After the Laboratory for Astrophysics and Space Research (LASR) was built by NASA in 1966 at the university, Chandrasekhar occupied one of the four corner offices on the second floor. (The other corners housed
John A. Simpson,
Peter Meyer, and
Eugene N. Parker.) Chandrasekhar lived at 4800 Lake Shore Drive after the high-rise apartment complex was built in the late 1960s, and later at 5550 Dorchester Building.
Dispute with Eddington After graduating from Cambridge, Chandrasekhar, who was in close contact with Arthur Eddington, presented a full solution to his stellar equation at the
Royal Astronomical Society meeting in 1935. Eddington booked a talk right after Chandrasekhar, where he openly criticized Chandrasekhar's theory. This depressed Chandrasekhar and sparked a scientific dispute. Eddington refused to accept a limit for the mass of a star and proposed an alternative model. Chandrasekhar sought support from prominent physicists like
Léon Rosenfeld,
Niels Bohr and
Christian Møller who found Eddington's arguments lacking. The tension persisted through 1930s, as Eddington continued to openly criticize Chandrasekhar during meetings and the two compared each other's theories in publications. Chandrasekhar ultimately completed his theory of white dwarfs in 1939, receiving praise from others in the field. Eddington died in 1944, and despite their disagreements, Chandrasekhar continued to state that he admired Eddington and considered him a friend.
On the Determination of the Velocity of a Projectile from the Beat Waves Produced by Interference with the Waves of Modified Frequency Reflected from the Projectile and
The normal reflection of a blast wave. Chandrasekhar's expertise in hydrodynamics led
Robert Oppenheimer to invite him to join the
Manhattan Project at Los Alamos, but delays in the processing of his security clearance prevented him from contributing to the project. It has been rumoured that he visited the
Calutron project.
Philosophy of systematization He wrote that his scientific research was motivated by his desire to participate in the progress of different subjects in science to the best of his ability, and that the prime motive underlying his work was
systematization. "What a scientist tries to do essentially is to select a certain domain, a certain aspect, or a certain detail, and see if that takes its appropriate place in a general scheme which has form and coherence; and, if not, to seek further information which would help him to do that". Chandrasekhar developed a unique style of mastering several fields of physics and astrophysics; consequently, his working life can be divided into distinct periods. He would exhaustively study a specific area, publish several papers in it and then write a book summarizing the major concepts in the field. He would then move on to another field for the next decade and repeat the pattern. Thus he studied
stellar structure, including the theory of
white dwarfs, during the years 1929 to 1939, and subsequently focused on
stellar dynamics, theory of
Brownian motion from 1939 to 1943. Next, he concentrated on the theory of
radiative transfer and the quantum theory of the
negative ion of hydrogen from 1943 to 1950. This was followed by sustained work on
turbulence and hydrodynamic and hydromagnetic stability from 1950 to 1961. In the 1960s, he studied both the equilibrium and the stability of ellipsoidal figures of equilibrium, and general relativity. During the period, 1971 to 1983 he studied the mathematical theory of
black holes, and, finally, during the late 80s, he worked on the theory of colliding
gravitational waves. Sagan recalled "I discovered what true
mathematical elegance is from Subrahmanyan Chandrasekhar."
Other activities From 1952 to 1971 Chandrasekhar was editor of
The Astrophysical Journal. When
Eugene Parker submitted a paper on his discovery of
solar wind in 1957, two eminent reviewers rejected the paper. However, since Chandra as an editor could not find any mathematical flaws in Parker's work, he went ahead and published the paper in 1958. During the years 1990 to 1995, Chandrasekhar worked on a project devoted to explaining the detailed geometric arguments in Sir
Isaac Newton's
Philosophiae Naturalis Principia Mathematica using the language and methods of ordinary calculus. The effort resulted in the book ''Newton's Principia for the Common Reader'', published in 1995. Chandrasekhar also worked on collision of gravitational waves, and algebraically special perturbations. He had a strong interest in literature and the arts. In 1975, he lectured on patterns of creativity in
Shakespeare,
Beethoven and Newton. ==Personal life==