Information and noise in quantum measurement
- 6 July 2000
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review A
- Vol. 62 (2) , 022103
- https://doi.org/10.1103/physreva.62.022103
Abstract
Even though measurement results obtained in the real world are generally both noisy and continuous, quantum measurement theory tends to emphasize the ideal limit of perfect precision and quantized measurement results. In this article, a more general concept of noisy measurements is applied to investigate the role of quantum noise in the measurement process. In particular, it is shown that the effects of quantum noise can be separated from the effects of information obtained in the measurement. However, quantum noise is required to “cover up” negative probabilities arising as the quantum limit is approached. These negative probabilities represent fundamental quantum-mechanical correlations between the measured variable and the variables affected by quantum noise.All Related Versions
This publication has 20 references indexed in Scilit:
- State determination in continuous measurementPhysical Review A, 1999
- Quantum control of atomic systems by homodyne detection and feedbackPhysical Review A, 1998
- Quantum Theory without Observers—Part OnePhysics Today, 1998
- Meaning of the wave functionPhysical Review A, 1993
- Quantum-nondemolition measurement of the photon number of an optical solitonPhysical Review Letters, 1992
- Back-Action Evading Measurements of an Optical Field Using Parametric Down ConversionPhysical Review Letters, 1989
- How the result of a measurement of a component of the spin of a spin-1/2particle can turn out to be 100Physical Review Letters, 1988
- Quantum Nondemolition Detection of Optical Quadrature AmplitudesPhysical Review Letters, 1986
- Mathematical Foundations of Quantum Mechanics (Investigations in Physics No. 2)Physics Today, 1955
- ber den anschaulichen Inhalt der quantentheoretischen Kinematik und MechanikThe European Physical Journal A, 1927