Nonlinear quantum optomechanics in a Fano-mirror microcavity system
Journal article, 2026

We study a Fano-mirror optomechanical system in the quantum nonlinear regime. In this system, two strongly lossy optical modes hybridize through both coherent and dissipative couplings to form an effective optical mode with a drastically reduced linewidth. This linewidth reduction enables the system to access the single-photon strong-coupling and sideband-resolved regimes simultaneously. We formulate the system dynamics using an effective master-equation approach and benchmark it against quantum Langevin and dressed-state master-equation descriptions. With experimentally realistic parameters, we predict clear quantum signatures, including photon blockade and the generation of mechanical cat states. Our work establishes the Fano-mirror architecture as a promising platform for harnessing single-photon optomechanical nonlinearities for quantum state engineering under achievable experimental conditions.

photon blockade

nonclassical states

quantum optomechanics

single-photon ultrastrong coupling

Author

Lei Du

Chalmers, Microtechnology and Nanoscience (MC2), Applied Quantum Physics

Juliette Monsel

Chalmers, Microtechnology and Nanoscience (MC2), Applied Quantum Physics

Witlef Wieczorek

Chalmers, Microtechnology and Nanoscience (MC2), Quantum Technology

Janine Splettstösser

Chalmers, Microtechnology and Nanoscience (MC2), Applied Quantum Physics

Quantum Science and Technology

20589565 (eISSN)

Vol. 11 3 035035

Subject Categories (SSIF 2025)

Atom and Molecular Physics and Optics

Condensed Matter Physics

Other Physics Topics

DOI

10.1088/2058-9565/ae7e22

More information

Latest update

7/7/2026 8