Nonlinear Dynamics in Semiconductor Lasers - Abstract
Yulin, Alexey
The formation of localized coherent states in polariton systems with spit-orbit interaction is considered. Depending on the shape of the incoherent pump the system can support coherent polariton state of different vorticity. It is shown that the external optical pump can be used to control the formation of the stationary polariton states and thus to control the lasing regime. The importance of the spin-orbit interaction (TE-TM splitting) between the polarizations is discussed. It is demonstrated that applied magnetic field can affect the synchronization of different polarizations and to change the working mode of the polariton laser.