Measurements of mode-splitting self-pulsing in a single-mode, Fabry-Perot laser
Self-pulsing of a single-mode laser has been studied with the use of the inhomogeneously broadened 3.51-..mu..m transition in xenon. Time-averaged intensity power spectra, average power output, and real-time observations of intensity fluctuations have been recorded for various detunings of the Fabry-Perot cavity. Two forms of self-pulsing have been observed, both of which can be explained in terms of the phase locking of several frequencies which simultaneously exist in the same spatial mode, made possible by the rapid variations of the index of refraction in the high-gain medium. One form of such mode splitting occurs in the wings of the atomic response due to the variations in the inhomogeneously broadened anomalous dispersion. The second form can occur anywhere in the tuning range of the laser as it is caused by distortions induced in the dispersion by the hole-burning effects of the oscillating mode. The pulsation frequency of this induced mode splitting varies with cavity tuning, shows a dip at the atomic line center, and may be absent for detuning of one or two homogeneous linewidths away from center. The instabilities have shown subharmonic bifurcations of the pulsation frequencies. Both high-Q pulsation frequencies and broad bands of frequencies in the power spectra have been observed for various operating conditions.
- Research Organization:
- Department of Physics, Bryn Mawr College, Bryn Mawr, Pennsylvania 19010
- OSTI ID:
- 6433434
- Journal Information:
- Phys. Rev. A; (United States), Vol. 26:6
- Country of Publication:
- United States
- Language:
- English
Similar Records
Effects of three-mode field interactions in laser instabilities and in beat-frequency spectroscopy
FM and AM mode locking of the homogeneous laser. Part I. Theory