Litcius/Paper detail

Coherently refreshing hypersonic phonons for light storage

Birgit Stiller, Moritz Merklein, Christian Wolff, Khu Vu, Pan Ma, Steve Madden, Benjamin J. Eggleton

2020Optica53 citationsDOIOpen Access PDF

Abstract

Acoustic waves can serve as memory for optical information; however, propagating acoustic phonons in the gigahertz (GHz) regime decay on the nanosecond time scale. Usually this is dominated by intrinsic acoustic loss due to inelastic scattering of the acoustic waves and thermal phonons. Here we show a way to counteract the intrinsic acoustic decay of the phonons in a waveguide by resonantly reinforcing the acoustic wave via synchronized optical pulses. We experimentally demonstrate coherent on-chip storage in amplitude and phase up to 40 ns, 4 times the intrinsic acoustic lifetime in the waveguide. Through theoretical considerations, we anticipate that this concept allows for storage times up to microseconds within realistic experimental limitations while maintaining a GHz bandwidth of the optical signal.

Topics & Concepts

PhononMicrosecondPhysicsAcoustic waveNanosecondAmplitudeOpticsBandwidth (computing)WaveguideThermalAcousticsLaserCondensed matter physicsTelecommunicationsComputer scienceMeteorologyMechanical and Optical ResonatorsPhotorefractive and Nonlinear OpticsAdvanced Fiber Laser Technologies