Quantum variational measurement in the next generation gravitational-wave detectors
arXiv:gr-qc/0609058 · doi:10.1103/PhysRevD.76.102002
Abstract
A relatively simple method of overcoming the Standard Quantum Limit in the next-generation Advanced LIGO gravitational wave detector is considered. It is based on the quantum variational measurement with a single short (a few tens of meters) filter cavity. Estimates show that this method allows to reduce the radiation pressure noise at low frequencies ($<100 \mathrm{Hz}$) to the level comparable with or smaller than the low-frequency noises of non-quantum origin (mirrors suspension noise, mirrors internal thermal noise, and gravity gradients fluctuations).
12 pages, 4 figures; NSNS SNR estimates added; misprints corrected