Title :
Experimental stability diagram of a diode laser subject to weak phase-conjugate feedback from a rubidium vapor cell
Author :
Andersen, Ole K. ; Fischer, Alexis P A ; Lane, Ian C. ; Louvergneaux, Eric ; Stolte, Steven ; Lenstra, Daan
Author_Institution :
Fac. of Sci., Vrije Univ., Amsterdam, Netherlands
fDate :
4/1/1999 12:00:00 AM
Abstract :
We report on a systematic experimental investigation of the dynamical behavior of a diode laser subject to delayed feedback from a phase-conjugating mirror based on nearly-degenerate four-wave mixing in rubidium vapor. We present the first experimental stability diagram for this system. In the weak feedback regime, with feedback levels up to -30 dB, me demonstrate locking to the pump frequency with a reduced linewidth smaller than 8 MHz. In contrast to a laser with external injection, and contrary to predictions made for phase-conjugate feedback, the extent of this locking region is found to be limited. For increased feedback rates, the laser leaves the locking region and enters an unstable region through a series of multiple sidebands spectra. This is associated with self-excitation of the relaxation oscillation, and the observed scenario suggests a series of period-doublings after an initial Hopf bifurcation
Keywords :
bifurcation; laser feedback; laser mirrors; multiwave mixing; optical phase conjugation; rubidium; spectral line breadth; Rb; delayed feedback; diode laser; dynamical behavior; experimental stability diagram; feedback levels; feedback rates; initial Hopf bifurcation; multiple sidebands spectra; nearly-degenerate four-wave mixing; period-doublings; phase-conjugating mirror; pump frequency; reduced linewidth; rubidium vapor; rubidium vapor cell; self-excitation; systematic experimental investigation; unstable region; weak phase-conjugate feedback; Bifurcation; Delay; Diode lasers; Frequency; Laser feedback; Laser stability; Mirrors; Optical feedback; Phase change materials; Pump lasers;
Journal_Title :
Quantum Electronics, IEEE Journal of
