Femtosecond Time-Space Holograms: Diffraction on the Edge of Time

A. Rebane, O. Ollikainen, H. Schwoerer, U. Wild
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Abstract

Time- and space domain (TSD) holography [1-3] can be viewed upon as a more general case of conventional holographic process, in which the recording media re members, in addition to the spatial picture, also the spectral intensity of the illuminating light. The resolution of TSD-holograms in time is Fourier-related to the spectral properties of the recording media. The longest time interval that can be recorded is given by the inverse value of the homogeneous width of the zero-phonon line and the shortest time is given by the inverse value of the width of the inhomogeneous distribution in the frequency dimension. By using photochemical spectral hole-burning in organic dye-polymer systems with very broad inhomogeneous bands TSD-holograms of full scenes of ultrafast events with subpicosecond time resolution have been recorded [4, 5].
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飞秒时空全息图:时间边缘上的衍射
时空域(TSD)全息术[1-3]可以看作是传统全息术的一种更普遍的情况,在这种情况下,记录介质除了记住空间图像外,还记住照明光的光谱强度。tsd全息图在时间上的分辨率与记录介质的光谱特性呈傅里叶相关。可记录的最长时间间隔为零声子线均匀宽度的反比值,最短时间为频率维上非均匀分布宽度的反比值。通过在具有非常宽的非均匀波段的有机染料-聚合物体系中使用光化学光谱烧孔,已经记录了亚皮秒时间分辨率的超快事件全场景的tsd全息图[4,5]。
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