13 research outputs found
Intrinsic fluctuations in random lasers
We present a quantitative experimental and theoretical study of shot-to-shot
intensity fluctuations in the emitted light of a random laser. A model that
clarifies these intrinsic fluctuations is developed. We describe the output
versus input power graphs of the random laser with an effective spontaneous
emission factor (beta factor).Comment: accepted by Phys. Rev. A. submitted; 7 pages, 5 figure
Spatial Extent of Random Laser Modes
We have experimentally studied the distribution of the spatial extent of modes and the crossover from essentially single-mode to distinctly multimode behavior inside a porous gallium phosphide random laser. This system serves as a paragon for random lasers due to its exemplary high index contrast. In the multimode regime, we observed mode competition. We have measured the distribution of spectral mode spacings in our emission spectra and found level repulsion that is well described by the Gaussian orthogonal ensemble of random-matrix theory
Quantitative analysis of several random lasers
We prescribe the minimal set of experimental data and parameters that should
be reported for random-laser experiments and models. This prescript allows for
a quantitative comparison between different experiments, and for a criterion
whether a model predicts the outcome of an experiment correctly. In none of
more than 150 papers on random lasers that we found these requirements were
fulfilled. We have nevertheless been able to analyze a number of published
experimental results and recent experiments of our own. Using our method we
determined that the most intriguing property of the random laser (spikes) is in
fact remarkably similar for different random lasers.Comment: 3 pages, 1 figur
Relaxation oscillations in long-pulsed random lasers
We have measured the evolution of the intensity emitted by a random laser during a pump pulse that is comparable in duration to the spontaneous emission decay time. The time traces of our random laser, consisting of titanium dioxide particles and sulforhodamine B dye, show clear relaxation oscillations. We compare our experimental results to an analytic, conventional model based on the four-level rate equations for a single-mode laser. The measured frequency of well-resolved fluctuation oscillations suggests an effective mode lifetime of 5 ps