Analysis of a synchronously mode-locked and internally frequency-doubled CW dye laser

Abstract

We present analytical studies of a synchronously mode-locked and internally frequency-doubled CW (SMLFD) dye laser. The analysis describes the cavity detuning behavior of the pulse duration and the square of its peak intensity (the signal intensity of the autocorrelation trace) in terms of system parameters for different lengths of the intracavity crystal. The results predict the broadening of the pulse duration with the increase of the crystal length even though the condition of the group velocity matching is satisfied. It is shown that the prediction is in good agreement with the experimental results of the SMLFD rhodamine 6G laser with an ADP crystal in the cavity. Furthermore, the variation of the minimum pulse duration at the optimum cavity length as a function of the harmonic conversion efficiency is derived.

Keywords

This publication has 8 references indexed in Scilit:

Near-infrared subpicosecond pulse generation in a synchronously mode-locked cw dye laser
Optics Communications, 1980
Intracavity second harmonic generation using a synchronously mode-locked C.W. dye laser
Optics Communications, 1980
Intracavity second-harmonic generation in a synchronously mode-locked cw dye laser
Journal of Applied Physics, 1980
Time resolved fluorescence of trans-Stilbene in the picosecond regime
Applied Physics Letters, 1979
Cavity length detuning characteristics of the synchronously mode-locked CW dye laser
IEEE Journal of Quantum Electronics, 1979
Characteristics of picosecond pulses generated from synchronously pumped cw dye laser system
Optics Communications, 1978
Theory of mode locking with a slow saturable absorber
IEEE Journal of Quantum Electronics, 1975
A theory of the mode-locked, internally frequency-doubled laser
IEEE Journal of Quantum Electronics, 1975