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- D. Kouznetsov, D. Rohrlich. Quantum noise in the mapping of phase space. [[Optics and Spectroscopy]], July 1997, v.83, N6, p.909-913</ref>.14 KB (2,275 words) - 18:25, 30 July 2019
- [[IEEE Journal of Selected Topics in Quantum Electronics]], Diode-pumped continuous-wave and passively mode-locked Yb:GSO laser. [[Optics Express]], volume=14, pages=686-69525 KB (774 words) - 18:33, 30 July 2019
- ...once. The formalism had constructed for Physics (for needs of the Quantum Optics and the Laser Science), but it applies also to other sciences. In this work Before quantum mechanics, the fundamental possibility of describing any system in terms of100 KB (14,715 words) - 16:21, 31 October 2021
- ...etsov. Quantum fluctuations do not annihilate the optical soliton. Quantum Optics, <b>4</b> 221-227 (1992) http://www.maik.rssi.ru/cgi-bin/search.pl?type=abstract&name=optics&number=10&year=99&page=594 или http://www.ils.uec.ac.jp/~dima/PAPERS/gom111 KB (2,581 words) - 16:54, 17 June 2020
- ...large-aperture medium-repetition rate Nd:glass amplifier|journal=[[Applied Optics]]|volume=1837|pages=351–361| year=1981|doi=10.1364/AO.20.000351}}</ref> |journal=[[IEEE Journal of Selected Topics in Quantum Electronics|IEEE J. of Selected Topics in QE]]15 KB (2,320 words) - 14:31, 20 June 2013
- '''Quantum reflection''' is physical phenomenon of [[specular reflection]] of a matter This phenomenon can be described in terms of [[quantum mechanics]] and has no classical analogy.16 KB (2,453 words) - 18:26, 30 July 2019
- In [[Quantum mechanics]], function \(A\) may have sense of the [[wave function]] in the ...he second order characterization of ultrashort pulses. [[Journal of Modern Optics]], v.46, No.15, p.2069-2077 (1999).<!-- DOI: 10.1080/09500349908231393 !-->11 KB (1,501 words) - 18:44, 30 July 2019
- ...v, D.Kh.Morozov. Density of turbulence-induced phase dislocations. Applied Optics, 1998, v.37, No.21, p.4525-4535. ...to double-clad fiber amplifiers: Numerical simulations. [[IEEE Journal of Quantum Electronics]], 2004, v.40, No.9, p.1301-1305.6 KB (1,010 words) - 13:23, 24 December 2020
- ==Quantum mechanics== ==Optics==3 KB (488 words) - 18:25, 30 July 2019
- The use of the Yb-doped materials with low quantum defect by [[Chinese Optics Letters]], 2007, v.5, p.S240-S2428 KB (1,147 words) - 18:44, 30 July 2019
- ...mic energetics[[ is concept of the non-thermal use of energy of metastable quantum states. ...ry results of the limits of the single–mode approximation in the Quantum Optics had been published in the past century10 KB (1,625 words) - 18:44, 30 July 2019
- | journal=[[Optics Letters]] ...and ceramics. Since then, the Institute has carried out experiments with [[quantum reflection]] of cold excited [[neon]] atoms from [[silicon]] surfaces.12 KB (1,757 words) - 07:01, 1 December 2018
- ...raxial approximation. However, this approximation still works well for the optics of atomic waves. [[Optics]], [[Diffraction]]3 KB (496 words) - 18:25, 30 July 2019
- The [[Absorbing Schroedinger]] describes the evolution of the quantum state of a particle slightly coupled to other particles, [[environment]], g </ref>. The Absorbing Schroedinger describes the [[quantum reflection]] of particles from the region of their absorption.15 KB (2,070 words) - 18:47, 30 July 2019
- The Absorbing Schroedinger describes the evolution of the quantum state of a particle slightly coupled to many other particles, [[environment [[Quantum reflection]],5 KB (743 words) - 18:47, 30 July 2019
- ...literature) for analysis of articles (and the presentations) about quantum optics and other [[laser science]].8 KB (1,149 words) - 21:13, 9 March 2021
- ...], but also to the [[field theory]], and, in rapricular, to the [[paraxial optics]] and the [[Navier-Stokes equation]]. In Optics, the conservation of quasi-energy prohibits the [[quantum annihilation of the optical solution]]; the conservation momentum in the me10 KB (1,317 words) - 18:25, 30 July 2019
- is [[quantum state]] that can be represented as superposition of two (o [[Optics and Spectroscopy]], 1999, v.87, No.4, pp.594-602.5 KB (146 words) - 18:33, 30 July 2019
- quantum communications and quantum computing [10-20]. Quantum Computation6 KB (903 words) - 18:44, 30 July 2019
- This notation is borrowed from the [[Quantum mechanics]], where \(P^2(\psi)=P(P(\psi))\), but never \(P(\psi)^2\). quantum stability of the optical soliton, suggested15 KB (2,166 words) - 20:33, 16 July 2023