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Schrodinger equation quantum light theory

The Schrodinger equation, however, does not take into account relativity, which is important when particles move at about the speed of light. So, P.A.M. Dirac (1928) advanced his theory of relativistic quantum theory, introducing time as the fourth dimension. [Pg.6]

Schrodinger s equation is widely known as a wave equation and the quantum formalism developed on the basis thereof is called wave mechanics. This terminology reflects historical developments in the theory of matter following various conjectures and experimental demonstration that matter and radiation alike, both exhibit wave-like and particle-like behaviour under appropriate conditions. The synthesis of quantum theory and a wave model was first achieved by De Broglie. By analogy with the dual character of light as revealed by the photoelectric effect and the incoherent Compton scattering... [Pg.196]

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