Muller Boundary Integral Equations in the Microring Lasers Theory is important for using the
Muller boundary integral equations in the microring lasers theory.
Muller Boundary Integral Equations for Solving Generalized Complex-Frequency Eigenvalue Problem the generalizedcomplex-frequency eigenvalue problem and the eigenvalue problemfor the
Muller boundary integral equations Spectra, Thresholds, and Modal Fields of a Triangular Microcavity Laser eigenvalue problem for the
Muller integral equation on the cavity's
boundary. Discretizing it with a Nyström
Modal Fields of a Triangular Microcavity Laser with a Piercing Hole as solutions of the Lasing Eigenvalue Problem using the system of
Muller boundary integral equations Spectra, thresholds, and modal fields of a circular microcavity laser transforming into a square for the
Muller boundary integral equation and build a numerical algorithm of its solution. Computations
Why elliptic microcavity lasers emit light on bow-tie-like modes instead of whispering-gallery-like modes conditions. The instrument of our study is the set of two coupled
Muller boundary integral equations (BIE
Spectra, thresholds, and modal fields of a circular microcavity laser transforming into a square for the
Muller boundary integral equation and build a numerical algorithm of its solution. Computations