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Theory of Atom Optics: Feynman’s Path Integral Approach |
| DENG Lv-bi |
| Department of Physics, Southeast University, Nanjing 210096, China |
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Abstract The present theory of atom optics is established mainly on the Schrödinger equations or the matrix mechanics equation. The authors present a new theoretical formulation of atom optics: Feynman �s path integral theory. Its advantage is that one can describe the diffraction and interference of atoms passing through slits (or grating), apertures, and standing wave laser field in Earth �s gravitational field by using a type of wave function and calculation is simple. For this reason, we derive the wave functions of particles in the following configurations: single slit (and slit with the van der Waals interaction), double slit, N slit, rectangular aperture, circular aperture, the Mach �Zehnder-type interferometer, the interferometer with the Raman beams, the Sagnac effect, the Aharonov �Casher effect, the Kapitza �Dirac diffraction effect, and the Aharonov �Bohm effect. The authors give a wave function of the state of particles on the screen in abovementioned configurations. Our formulas show good agreement with present experimental measurements.
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Issue Date: 05 March 2006
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