Current- and temperature-induced beam steering in 7.8-µm emitting quantum-cascade lasers

Hinkov, B.B.HinkovFuchs, F.F.FuchsBronner, WolfgangWolfgangBronnerKöhler, KlausKlausKöhlerWagner, J.J.Wagner2022-03-042022-03-042008https://publica.fraunhofer.de/handle/publica/21661610.1109/JQE.2008.2003499We report large current- and temperature-induced beam-steering effects, observed in the far-field distribution of InP-based quantum-cascade lasers emitting around 7.8-µm wavelength operated in pulsed mode Changing the temperature within a narrow range of about 10 °C around room-temperature leads to a change in the direction of the output beam, as given by the central lobe in the far-field intensity distribution, from +11° to -13° as measured relative to the resonator axis. This beam steering effect is linked to changes in the lateral mode distribution, as revealed by time-resolved spectroscopy of the lasing spectrum.enbeam steeringStrahlablenkunginfrared emissionIR-Strahlunglaser modeslaterale Modenquantum cascade laserQuantenkaskadenlasertime-resolved spectroscopyzeitaufgelöste Spektroskopie667621Current- and temperature-induced beam steering in 7.8-µm emitting quantum-cascade lasersStrom- und Temperatur-abhängige Strahlablenkung in 7.8-µm emmittierenden Quantenkaskadenlasernjournal article