The following timeline outlines notable discoveries in the study of black holes in physics, beginning in the 18th century and continuing to modern observations.
Pre-20th century
20th century
Before 1960s
- 1909 â Albert Einstein, together with Marcel Grossmann, starts to develop a theory which would bind metric tensor g<sub>ik</sub>, which defines a space geometry, with a source of gravity, that is with mass
- 1910 â Hans Reissner and Gunnar Nordström define ReissnerâÂÂNordström singularity, Hermann Weyl solves special case for a point-body source
- 1915 â Albert Einstein presents (David Hilbert presented this independently five days earlier in Göttingen) the complete Einstein field equations at the Prussian Academy meeting in Berlin on 25 November 1915
- 1916 â Karl Schwarzschild and independently Johannes Droste solve the Einstein vacuum field equations for uncharged spherically symmetric non-rotating systems
- 1917 â Paul Ehrenfest gives conditional principle a three-dimensional space
- 1918 â Hans Reissner and Gunnar Nordström solve the EinsteinâÂÂMaxwell field equations for charged spherically symmetric non-rotating systems
- 1918 â Friedrich Kottler gets Schwarzschild solution without Einstein vacuum field equations
- 1923 â George David Birkhoff proves that the Schwarzschild spacetime geometry is the unique spherically symmetric solution of the Einstein vacuum field equations
- 1931 â Subrahmanyan Chandrasekhar calculates, using special relativity, that a non-rotating body of electron-degenerate matter above a certain limiting mass (at 1.4 solar masses) has no stable solutions
- 1939 â Robert Oppenheimer and Hartland Snyder calculate the gravitational collapse of a pressure-free homogeneous fluid sphere into a black hole
- 1939 - Using the work of Richard Chace Tolman, Robert Oppenheimer and George Volkoff calculate the upper mass limit of a cold, non-rotating neutron star to be approximately 0.7 solar masses.
- 1958 â David Finkelstein theorises that the Schwarzschild radius is a causality barrier: an event horizon of a black hole
1960s
- 1963 â Roy Kerr solves the Einstein vacuum field equations for uncharged symmetric rotating systems, deriving the Kerr metric for a rotating black hole
- 1963 â Maarten Schmidt discovers and analyzes the first quasar, 3C 273, as a highly red-shifted active galactic nucleus, a billion light years away
- 1964 â Yakov Zel'dovich and independently Edwin Salpeter propose that accretion discs around supermassive black holes are responsible for the huge amounts of energy radiated by quasars
- 1964 â Hong-Yee Chiu coins the word quasar for a 'quasi-stellar radio source' in his article in Physics Today
- 1964 â The first recorded use of the term "black hole" in writing, by journalist Ann Ewing
- 1965 â Roger Penrose proves that an imploding star will necessarily produce a singularity once it has formed an event horizon
- 1965 â Ezra T. Newman, E. Couch, K. Chinnapared, A. Exton, A. Prakash, and Robert Torrence solve the EinsteinâÂÂMaxwell field equations for charged, rotating systems
- 1966 â Yakov Zel'dovich and Igor Novikov propose searching for black hole candidates among binary systems in which one star is optically bright and X-ray dark and the other optically dark but X-ray bright (the black hole candidate)
- 1967 â Jocelyn Bell discovers and analyzes the first radio pulsar, direct evidence for a neutron star
- 1967 â Werner Israel presents the proof of the no-hair theorem at King's College London
- 1967 â John Wheeler introduces the term "black hole" in his lecture to the American Association for the Advancement of Science
- 1968 â Brandon Carter uses HamiltonâÂÂJacobi theory to derive first-order equations of motion for a charged particle moving in the external fields of a KerrâÂÂNewman black hole
- 1969 â Roger Penrose discusses the Penrose process for the extraction of the spin energy from a Kerr black hole
- 1969 â Roger Penrose proposes the cosmic censorship hypothesis
After 1960s
- 1972 â Identification of Cygnus X-1/HDE 226868 from dynamic observations as the first binary with a stellar black hole candidate
- 1972 â Stephen Hawking proves that the area of a classical black hole's event horizon cannot decrease
- 1972 â James Bardeen, Brandon Carter, and Stephen Hawking propose four laws of black hole mechanics in analogy with the laws of thermodynamics
- 1972 â Jacob Bekenstein suggests that black holes have an entropy proportional to their surface area due to information loss effects
- 1974 â Stephen Hawking applies quantum field theory to black hole spacetimes and shows that black holes will radiate particles with a black-body spectrum which can cause black hole evaporation
- 1975 â James Bardeen and Jacobus Petterson show that the swirl of spacetime around a spinning black hole can act as a gyroscope stabilizing the orientation of the accretion disc and jets
- 1989 â Identification of microquasar V404 Cygni as a binary black hole candidate system
- 1989 - Eric Poisson and Werner Israel theorize the concept of mass-inflation, a phenomenon in which the curvature and gravitational mass parameter inside a spinning or charged black hole grow to infinity as one approaches the inner horizon, causing an infalling observer to experience a singularity at the inner horizon of the black hole.
- 1994 â Charles Townes and colleagues observe ionized neon gas swirling around the center of our Galaxy at such high velocities that a possible black hole mass at the very center must be approximately equal to that of 3 million suns
21st century
References
See also