TY - CONF AU - S. Smith AU - P. Hogan AB -
Recently there has been interest in the development of theoretical methods for incorporating the effects of finite laser bandwidth in the treatment of the ac Stark effect in the two-level atom approximation, and in the extension of this model to approximate descriptions of weak probe double resonance experiments [1]. In this paper we briefly describe some experimental observations which have played a role in motivating recent developments in the mathematical framework for treating finite laser bandwidth effects in phase diffusion models [2] and, more recently, in chaotic field models which include the effects of amplitude fluctuations [3].
CY - Berlin, Heidelberg DO - 10.1007/978-3-540-38950-7_38 N2 -Recently there has been interest in the development of theoretical methods for incorporating the effects of finite laser bandwidth in the treatment of the ac Stark effect in the two-level atom approximation, and in the extension of this model to approximate descriptions of weak probe double resonance experiments [1]. In this paper we briefly describe some experimental observations which have played a role in motivating recent developments in the mathematical framework for treating finite laser bandwidth effects in phase diffusion models [2] and, more recently, in chaotic field models which include the effects of amplitude fluctuations [3].
PB - Springer Berlin Heidelberg PP - Berlin, Heidelberg PY - 1979 SN - 978-3-540-38950-7 SP - 360 EP - 367 TI - Laser Bandwidth and Intensity Effects in Multiphoton Ionization of Sodium ER -