The Principle of Complementarity

Abstract

The wave-particle duality of photons and electrons was thoroughly discussed at a conference held at the Solvay Institute in October 1927, where Albert Einstein and Niels Bohr were the most prominent participants. From the beginning Einstein manifested great hesitation in accepting the renunciation of causal description of physical phenomena introduced by quantum theory. He clearly demonstrated his basic attitude by discussing the example of an atomic object (electron or photon) impinging upon a screen with a single slit (see figure 4). To the left of the screen the object is supposed to have a precisely defined momentum p and hence it is represented as a plane, harmonic wave. When passing through the slit, the plane wave is scattered into a cylindrical wave with an opening angle determined by the wavelength and the slit aperture. Einstein’s problem consisted of the fact that as soon as the object is detected at some point A on a photographic plate placed to the right of the screen, the object-wavecannot be detected in any other part of space whatever, which is directly contradictory to any wave phenomenon in classical physics. But the object-wave cannot be detected in any other part of space whatever, which is directly contradictory to any wave phenomenon is classical physics. But the object-wave just cannot be a classical wave phenomenon because this would imply the possibility of knowing the dynamical state of the object far more precisely than is compatible with the indeterminacy relations.