Litcius/Paper detail

Quadrature squeezing in a nanophotonic microresonator

Alexander E. Ulanov, Bastian Ruhnke, Thibault Wildi, Tobias Herr

2025Nature Communications9 citationsDOIOpen Access PDF

Abstract

Squeezed states of light are essential for emerging quantum technology in metrology and information processing. Chip-integrated photonics offers a route to scalable and efficient squeezed light generation, however, parasitic nonlinear processes and optical losses remain significant challenges. Here, we demonstrate single-mode quadrature squeezing in a photonic crystal microresonator via degenerate dual-pump spontaneous four-wave mixing. Implemented in a scalable, low-loss silicon-nitride photonic-chip platform, the microresonator features a tailored nano-corrugation that modifies its resonances to suppress parasitic nonlinear processes. In this way, we achieve an estimated 7.8 dB of on-chip squeezing in the bus waveguide, with potential for further improvement. These results open a promising pathway toward integrated squeezed light sources for quantum-enhanced interferometry, Gaussian boson sampling, coherent Ising machines, and universal quantum computing.

Topics & Concepts

PhysicsSqueezed coherent statePhotonicsQuantum opticsDegenerate energy levelsNanophotonicsQuantum metrologyQuantumNonclassical lightNonlinear systemQuantum mechanicsNonlinear opticsSpontaneous parametric down-conversionQuadrature (astronomy)Quantum imagingQuantum information processingOptoelectronicsQuantum informationMetrologyPhotonic crystalBosonCoherent statesQuantum sensorQuantum technologyGaussianCoherence (philosophical gambling strategy)Polarization (electrochemistry)Quantum fluctuationSupercontinuumOpticsQuantization (signal processing)Neural Networks and Reservoir ComputingPhotonic Crystals and ApplicationsQuantum Information and Cryptography