Conditional Dynamics in Heterodyne Detection of Superradiant Lasing with Incoherently Pumped Atoms
Huihui Yu, Yuan Zhang, Qilong Wu, Chongxin Shan, Klaus Mølmer
Abstract
In this Letter, we use quantum trajectory theory to simulate heterodyne detection of narrow bandwidth superradiant lasing from an incoherently excited atomic ensemble. To this end, we describe the system dynamics and account for stochastic measurement backaction by second-order mean-field theory. Our simulations show how heterodyne measurements break the phase symmetry, and initiate the atomic coherence with a random phase and a long temporal phase coherence. More importantly, our theory allows direct simulation of experimental procedures for extraction of spectral information which do not lend themselves to evaluation with the quantum regression theorem.
Topics & Concepts
PhysicsCoherence (philosophical gambling strategy)Heterodyne detectionLasing thresholdExcited stateSuperradianceQuantumCoherence timeQuantum opticsQuantum mechanicsHomodyne detectionLaserCold Atom Physics and Bose-Einstein CondensatesQuantum optics and atomic interactionsQuantum Information and Cryptography