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Atom optics (or atomic optics) is the area of physics which deals with beams of cold, slowly moving neutral atoms, as a special case of a particle beam. Like an optical beam, the atomic beam may exhibit diffraction and interference, and can be focused with a Fresnel zone plate or a concave atomic mirror. Several scientific groups work in this field.〔Atom Optics at the University of Queensland (Australia) homepage http://www.physics.uq.edu.au/atomoptics/〕 Until 2006, the resolution of imaging systems based on atomic beams was not better than that of an optical microscope, mainly due to the poor performance of the focusing elements. Such elements use small numerical aperture; usually, atomic mirrors use grazing incidence, and the reflectivity drops drastically with increase of the grazing angle; for efficient normal reflection, atoms should be ultracold, and dealing with such atoms usually involves magnetic, magneto-optical or optical traps rather than an optics. Recent scientific publications about Atom Nano-Optics, evanescent field lenses〔 V.Balykin, V.Klimov, and V.Letokhov. OPN, March 2005, p.44-48; http://www.osa-opn.org/abstract.cfm?URI=OPN-16-3-44〕 and ridged mirrors show significant improvement since the beginning of the 21st century. In particular, an atomic hologram can be realized. An extensive review article "Optics and interferometry with atoms and molecules" appeared in July 2009.〔 〕 More bibliography about Atom Optics can be found at the Resource Letter. ==See also== * Quantum reflection * Atomic nanoscope 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「atom optics」の詳細全文を読む スポンサード リンク
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