Litcius/Paper detail

Geometric Control of Collective Spontaneous Emission

Yizun He, Lingjing Ji, Yuzhuo Wang, Liyang Qiu, Jian Zhao, Yudi Ma, Xing Huang, Saijun Wu, Darrick E. Chang

2020Physical Review Letters51 citationsDOIOpen Access PDF

Abstract

Dipole spin-wave states of atomic ensembles with wave vector k(ω) mismatched from the dispersion relation of light are difficult to access by far-field excitation but may support rich phenomena beyond the traditional phase-matched scenario in quantum optics. We propose and demonstrate an optical technique to efficiently access these states. In particular, subnanosecond laser pulses shaped by a home-developed wideband modulation method are applied to shift the spin wave in k space with state-dependent geometric phase patterning, in an error-resilient fashion and on timescales much faster than spontaneous emission. We verify this control through the redirection, switch off, and recall of collectively enhanced emission from a ^{87}Rb gas with ∼75% single-step efficiency. Our work represents a first step toward efficient control of electric dipole spin waves for studying many-body dissipative dynamics of excited gases, as well as for numerous quantum optical applications.

Topics & Concepts

PhysicsExcited stateSpontaneous emissionDipoleSpin waveQuantumExcitationDissipative systemSpin (aerodynamics)Atomic physicsLaserOpticsQuantum mechanicsFerromagnetismThermodynamicsQuantum optics and atomic interactionsCold Atom Physics and Bose-Einstein CondensatesAtomic and Subatomic Physics Research