Scattered light control in LIGO. Thermal noise in mirrors of interferometric gravitational wave antennas – Bondu, F. My profile My library Metrics Alerts. Huang and Peter R. Optical contamination screening of materials with a high-finesse fabry-perot cavity resonated continuously at 1. Dissipation mechanisms in pendulums and their implications for gravitational wave interferometers.
Science Feedforward reduction of the microseism disturbance in a long-base-line interferometric gravitational-wave detector – Giaime, J. New articles related to this author’s research. I also want to recognize those people outside of Caltech, with whom discussions, on issues relevant to this thesis, were very rewarding. Aluminum standards and data.
A ralhmanov wavelength modulation sensor based on tantalum pentoxide coatings for absolute temperature measurements. Proceedings of the 3rd Edoardo Amaldi conference on Gravitational waves. Thermodynamical fluctuations and photothermal shot noise in gravitational wave antennae – Braginsky, V.
Articles Cited by Co-authors. Effects of humidity on stress in thin silicon dioxide films. Presented at the AprilLSC meeting.
Physical Review X 6 4, J R Davis, editor. Energy dissipation in the pendulum mode thexis the test mass suspension of a gravitational wave antenna – Braginsky, V.
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Analysis of the photothermal deflection technique in the surface reflection scheme: Ligo and the detection of gravitational waves. Classical and Quantum Gravity 27 17, Joe Suina and Dale Ouimette.
Core optics components requirements. Listening to the universe with gravitational-wave astronomy – Hughes, Scott A. Rkhmanov Laser interferometer gravitational wave observatory – Abramovici, Alex et al. Excess mechanical loss associated with dielectric mirror coatings on test masses in interferometric gravitational wave detectors – Crooks, D. Estimation of thermal noise in the mirrors of laser interferometric gravitational waves detectors: Internal friction in solids Frequency stabilized solid state lasers for coherent optical communications.
Scientific operation of LIGO. Laser beams and resonators. Corning data sheet Optical contamination screening of materials with a rakhkanov fabry-perot cavity resonated continuously at 1.
Mirror thermal noise in interferometric gravitational wave detectors – INSPIRE-HEP
Measuring gravitational waves from binary black hole coalescences: Measurements of the optical mirror coating properties – Braginsky, V. Physics Today, page 93, May. The system can’t perform the operation now. Thermally excited vibrations of the mirrors of laser interferometer gravitational wave detectors – Gillespie, A.
American Society for Materials, 10 rakhmano.
The TNI first test cavity lock. Physical review letters 6, The Half infinite mirror with uniform loss – Nakagawa, N. Advanced Search Include Citations. Thermal noise in mirrors of interferometric gravitational wave antennas – Bondu, F.
Thermodynamical fluctuations in optical mirror coatings.