Prof David Vitali

Sensing and quantum state synthesis and processing in cavity optomechanics

We show how optomechanical systems can be used to generate stationary arbitrary entangled Gaussian states of N mechanical modes for storage and manipulation of quantum information. This is achieved by tailoring the driven dissipative dynamics of the system, and specific examples are provided for continuous variable cluster states, which represents the universal resource for measurement-based continuous variable computation. N. Yazdi, S. Zippilli, D. Vitali, “Generation of stable Gaussian cluster states in optomechanical systems with multifrequency drives”, Quantum Sci. Technol. 9, 035001 (2024)