Abstract :
In this paper, thresholdless laser is not more realistic than a perpetual motion machine. No crystal is infinite, therefore the threshold can be only made small. In fact, zero threshold is completely equivalent to zero output light. Therefore it appears that analysis of lasing in infinite photonic crystals are either erroneous, if done approximately or with coarse numerical methods like FDTD, or has so sense at all, if done with accurate methods, which correctly account for the radiation conditions. Instead, one must simply formulate the lasing eigen value problem with a finite-size photonic crystal encasing a laser resonator and study the reduction of the thresholds as a function of elementary cell size, topology, filling, and number.
Keywords :
crystal structure; eigenvalues and eigenfunctions; finite difference time-domain analysis; laser cavity resonators; laser modes; photonic crystals; topology; FDTD; eigenvalue problems; elementary cell size; full-wave lasing; infinite photonic crystals; laser resonator; perpetual motion machine; radiation conditions; spectra extraction; threshold extraction; topology; Data mining; Eigenvalues and eigenfunctions; Frequency; Laser modes; Laser theory; Optical attenuators; Optical resonators; Q factor; Stimulated emission; Time domain analysis;
