Quantum mechanics/Timelines: Difference between revisions
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imported>J. Noel Chiappa (→Founding experiments: Add de Broglie, Heisenberg) |
imported>J. Noel Chiappa (→Founding experiments: Ooops, added some theory - will ask on talk how to handle) |
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==Founding | ==Founding work== | ||
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Revision as of 17:15, 1 April 2008
Founding work
c 1805: Thomas Young's double-slit experiment demonstrating the wave nature of light.
1896: Henri Becquerel discovers radioactivity.
1897: Joseph John Thomson's cathode ray tube experiments (discovers the electron and its negative charge).
1850 - 1900: The study of black body radiation, which could not be explained without quantum concepts.
1905: The photoelectric effect: Explained by Einstein (who later received a Nobel prize for it) using the concept of photons, particles of light with quantized energy.
1909: Robert Millikan's oil-drop experiment, which showed that electric charge occurs as quanta (whole units).
1911: Ernest Rutherford's gold foil experiment disproved the plum pudding model of the atom which suggested that the mass and positive charge of the atom are almost uniformly distributed.
1920: Otto Stern and Walther Gerlach conduct the Stern-Gerlach experiment, which demonstrates the quantized nature of particle spin.
1925 (?): Louis de Broglie extends the particle-wave duality to cover all particles
1927: Werner Heisenberg propounds the Uncertainty Principle
1927: Clinton Davisson and Lester Germer demonstrate the wave nature of the electron [1] in the Electron diffraction experiment.
1935: The EPR paper by Einstein and two collaborators points out an important, and previously non-understood implication of quantum mechanics
1955: Clyde L. Cowan and Frederick Reines confirm the existence of the neutrino in the neutrino experiment.
1961: Claus Jönsson`s double-slit experiment with electrons.
1964: J. S. Bell's theorem proves that so-called 'local' theories cannot predict quantum outcomes
1980: The Quantum Hall effect, discovered by Klaus von Klitzing. The quantized version of the Hall effect has allowed for the definition of a new practical standard for electrical resistance and for an extremely precise independent determination of the fine structure constant.
1982: Alain Aspect's group at the University of Orsay confirm Bell's prediction, and prove Einstein was wrong
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