Activities

Digitally enhanced Heterodyne Interferometery

Internal squeezing in coupled cavity systems

Low frequency gravitational force sensing

We are working on a controls prototype for a low-frequency gravitational-force sensing.

Low-noise offset-phase locking and heterodyne interferometry with 2µm-band lasers

This project is to implement a phase tracking system for the optical beat between two 2µm-band lasers for coating thermal noise measurements.

Machine learning for optics and controls

Modern gravitational wave detectors such as Advanced LIGO, which recently detected gravitational waves, are the most sensitive measurement devices ever constructed.

Measurement of optical and mechanical losses of mirror coatings

This project is about designing an experiment to measure the exponential decay of mechanical oscillator modes for determining key properties of optical coatings.

Mirror Coatings for Next-Generation Gravitational-Wave Detectors

Quantum entanglement in gravitational wave detectors

The quantum squeezing techniques implemented in the current generation of gravitational wave detectors improves the sensitivity of the detectors only in the high frequency regime (>100 Hz).