Optical Hole-Burning and Ground State Energy Transfer in Ruby
作者: P. E. Jessop , A. Szabo
DOI: 10.1007/978-3-540-38804-3_70
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摘要: A recent application of homogeneous linewidth laser spectroscopy optical solids is in energy transfer studies[1,2]. This paper describes a high resolution hole-burning study the R1 line ruby giving information on mechanism which determines saturated lineshape. As well known, zero phonon lines at liquid helium temperatures are inhomogeneously broadened due to crystal defects. When 4A2(±1/2;f)→Ē transition (R1(1/2) hereafter) by narrowband laser, result shown Figure 1 occurs[3].
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