Quantum Nondemolition Measurements
- 1 August 1980
- journal article
- research article
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 209 (4456) , 547-557
- https://doi.org/10.1126/science.209.4456.547
Abstract
Some future gravitational-wave antennas will be cylinders of mass ∼100 kilograms, whose end-to-end vibrations must be measured so accurately (10 –19 centimeter) that they behave quantum mechanically. Moreover, the vibration amplitude must be measured over and over again without perturbing it (quantum nondemolition measurement). This contrasts with quantum chemistry, quantum optics, or atomic, nuclear, and elementary particle physics, where one usually makes measurements on an ensemble of identical objects and does not care whether any single object is perturbed or destroyed by the measurement. This article describes the new electronic techniques required for quantum nondemolition measurements and the theory underlying them. Quantum nondemolition measurements may find application elsewhere in science and technology.Keywords
This publication has 12 references indexed in Scilit:
- On the measurement of a weak classical force coupled to a quantum-mechanical oscillator. I. Issues of principleReviews of Modern Physics, 1980
- Gravitational-wave research: Current status and future prospectsReviews of Modern Physics, 1980
- Quantum nondemolition and gravity-wave detectionPhysical Review D, 1979
- Quantum limits on resonant-mass gravitational-radiation detectorsPhysical Review D, 1979
- Gravitational waves and the detection of gravitational radiationPhysics Reports, 1978
- Analysis of quantum-nondemolition measurementPhysical Review D, 1978
- Quantum Nondemolition Measurements of Harmonic OscillatorsPhysical Review Letters, 1978
- Ultimate sensitivity limit of a resonant gravitational wave antenna using a linear motion detectorPhysical Review D, 1976
- Quantum-mechanical limitations in macroscopic experiments and modern experimental techniqueSoviet Physics Uspekhi, 1975
- MasersReviews of Modern Physics, 1959