Litcius/Paper detail

Room-Temperature Mechanical Resonator with a Single Added or Subtracted Phonon

Rishi N. Patel, Timothy P. McKenna, Zhaoyou Wang, Jeremy D. Witmer, Wentao Jiang, Raphaël Van Laer, Christopher J. Sarabalis, Amir H. Safavi‐Naeini

2021Physical Review Letters28 citationsDOIOpen Access PDF

Abstract

A room-temperature mechanical oscillator undergoes thermal Brownian motion with an amplitude much larger than the amplitude associated with a single phonon of excitation. This motion can be read out and manipulated using laser light using a cavity-optomechanical approach. By performing a strong quantum measurement (i.e., counting single photons in the sidebands imparted on a laser), we herald the addition and subtraction of single phonons on the 300 K thermal motional state of a 4 GHz mechanical oscillator. To understand the resulting mechanical state, we implement a tomography scheme and observe highly non-Gaussian phase-space distributions. Using a maximum likelihood method, we infer the density matrix of the oscillator, and we confirm the counterintuitive doubling of the mean phonon number resulting from phonon addition and subtraction.

Topics & Concepts

PhononResonatorMaterials scienceCondensed matter physicsPhysicsOptoelectronicsMechanical and Optical ResonatorsAcoustic Wave Resonator TechnologiesAdvanced MEMS and NEMS Technologies
Room-Temperature Mechanical Resonator with a Single Added or Subtracted Phonon | Litcius