quantum optics (original) (raw)
Author: the photonics expert
Definition: the part of optics which deals with quantum effects
More general term: optics
quantum opticsDOI: 10.61835/stw [Cite the article](encyclopedia%5Fcite.html?article=quantum optics&doi=10.61835/stw): BibTex plain textHTML Link to this page LinkedIn
Quantum optics is the part of optics (the science and technology of light) which deals with quantum effects. In many cases, such effects are studied in the context of fundamental research. However, they are also very important in laser physics:
- Fundamental quantum-mechanical processes such as spontaneous and stimulated emission are of basic importance for the general operation and the performance of lasers.
- Quantum effects introduce laser noise, e.g. cause a finite linewidth and a finite level of intensity noise even if all technical noise sources are suppressed. Similarly, they set a lower limit to the amplifier noise of optical amplifiers.
Another area of quantum optics involves nonclassical light, such as squeezed states of light, having unusual quantum noise properties. This area is somewhat related to the topic of quantum nondemolition measurements, which make it possible, e.g., to determine the intensity of a light beam without altering it.
Quantum Technologies
Quantum optics has practical applications, e.g. quantum cryptography, which is the use of quantum effects for secure transmission of information, and quantum metrology. Particularly the applied fields are also called quantum photonics as a field within quantum technology and within photonics. The following types of products are specific for those fields:
- single-photon emitters
- photon pair sources
- low-noise photodetectors, e.g. for photon counting
- optical traps
- systems for quantum cryptography including quantum key distribution
- parts for scientific research on quantum computing
More to Learn
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Bibliography
| [1] | D. L. Andrews et al., “Quantum electrodynamics in modern optics and photonics: tutorial”, J. Opt. Soc. Am. B 37 (4), 1153 (2020); https://doi.org/10.1364/JOSAB.383446 |
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| [2] | W. P. Schleich et al., Quantum Optics in Phase Space, Wiley-VCH Verlag GmbH, Weinheim (1999) |
| [3] | D. F. Walls and G. J. Milburn, Quantum Optics, Springer, Berlin (1994) |
| [4] | R. Loudon, The Quantum Theory of Light, 3rd edition, Oxford University Press, New York (2000) |
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