Die vorliegende Arbeit basiert auf der Diplomarbeit von H. STAB, Berlin 1968.
- Autor(in)
- Referenz
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1 Paul, H., Fortschr. d. Physik 14 (1966) 141.
2 Glauber, R. J., Phys. Rev. 131 (1963) 2766.
3 Paul, H., W. Brunner u. G. Richter, Ann. Physik 12 (1963) 325.
4 Blatt, J. M., u. V. F. Weisskopf, Theoretische Kernphysik, S. 669f., Teubner, Leipzig 1959.
5 Bethe, H. A., u. E. E. Salpeter, Quantum Mechanics of One- and Two-Electron Atoms, Springer, Berlin 1957.
6 Zernik, W., Phys. Rev. 135 (1964) A51.
7 Schiff, L. I., Quantum Mechanics, 2nd Ed., McGraw-Hill Book Co., New York 1955.
- Seitenbereich
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0192 - 0205
- Zusammenfsg.
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From the quantum mechanical description of the photoelectric effect interference between two light beams polarized in orthogonal directions is predicted in case of a onephoton-detector (with radial symmetric initial state of the electrons) if only photoelectrons propagating in a (properly chosen) solid angle are registered. If a two-photon-detector is used for observation interference between orthogonally polarized beams takes place also if all photoelectrons are counted, irrespective of their direction of propagation. In this case a beat signal at twice the difference frequency Δ<I>v</I> (but no signal at Δ<I>v</I>!) will occur.
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