SEMICLASSICAL STUDY OF DOUBLE-LAMBDA LASER WITHOUT INVERSION

Lasing without inversion in the 'double-lambda' scheme is studied for arbitrary single-mode cavity linewidth. Former simplified analytic theory is tested against full numerical solution of the semiclassical laser equations. An improved analytic approach is proposed which takes into account the leading nonresonant terms. It is shown that the simple interpretation of lasing in the dressed states picture works well only in the vicinity of the laser threshold or for such a strong driving that a large separation between the dressed states of the system assures little competition of different polarizations induced in the medium.