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• Natural number
  washing of the [[optical axis|optical axes]]. [[Category:Science]]
  13 KB (2,014 words) - 18:25, 30 July 2019
• Place of science in the human knowledge
  [[Place of Science in the Human Knowledge]] ([[Place of science in the human knowledge]])
  100 KB (14,715 words) - 16:21, 31 October 2021
• Место науки в человеческом знании
  ...:246px"><div style="width:260px"><small>Examples of things considered as [[science]]:</small> http://english.pravda.ru/science/tech/14-04-2009/107399-Russian_scientists-0
  111 KB (2,581 words) - 16:54, 17 June 2020
• Regular Iteration
  ...ainly [[history|historical]], "it happened so". The application in [[laser science]] of the [[Transfer equation]] is more transparent than that of the [[Schro ...]], that can be interpreted as transfer function of an idealized saturable optical amplifier
  20 KB (3,010 words) - 18:11, 11 June 2022
• Refutability
  http://www.stephenjaygould.org/ctrl/popper_falsification.html Karl R. Popper. Science as falsification. Karl Popper, Conjectures and Refutations. London: Routled Karl Popper. Science: Conjectures and refutations. - 'Philosophy of Science: a Personal Report', in British Philosophy in Mid-Century, ed. C. A. Mace,
  44 KB (5,981 words) - 21:41, 22 June 2020
• Japan
  characterized with high level of culture, [[science]] and [[technology]]. ==Top of science and technology==
  15 KB (2,106 words) - 13:37, 5 December 2020
• Fiber disk laser
  ...racterized by the pump beam not being parallel to the active core of the [[optical fiber]] (as in a [[double-clad fiber]]), but directed to the coil of the fi First disk lasers were developed in the [[Institute for Laser Science]], Japan, in 2000.
  4 KB (607 words) - 07:00, 1 December 2018
• Microchip atom trap
  ...0.jpg|300px|right|thumb|First microchip trap made in [[Institute for Laser Science|ILS]] in 2005]] ...'. "Observation of Bose-Einstein condensation in a dilute atomic vapor." [[Science (magazine)|S'', '''269''', 198 (1995).
  9 KB (1,400 words) - 18:26, 30 July 2019
• Resolution
  ...measurement of a single value and to analysis of images obtained with some optical systems (spectra, registrograms, traces, photographies, etc.). At the registration of images with optical devices,
  12 KB (1,898 words) - 18:25, 30 July 2019
• Tania function
  Properties of Tania function are described in scientific journal [[Optical Review]] <ref> D.Kouznetsov. Superfunctions for amplifiers. Optical Review, July 2013, Volume 20, Issue 4, pp 321-326. <br>
  27 KB (4,071 words) - 18:29, 16 July 2020
• LambertW function
  which has applications in the [[laser science]]. In the simple model of an [[optical amplifier]], the [[transfer function]] is [[Doya function|Doya]], which and [[Category:Laser science]]
  8 KB (1,107 words) - 18:26, 30 July 2019
• Doya function
  ...ya function]] and its iterates appear as the [[transfer function]] of an [[optical amplifier]] with simplest kinetic model. [[Optical Materials]], '''31''' (2009) 754–759.</ref>) and much larger than unity
  19 KB (2,778 words) - 10:05, 1 May 2021
• Table of superfunctions
  D.Kouznetsov. Superfunctions for amplifiers. [[Optical Review]], July 2013, Volume 20, Issue 4, pp 321-326. D.Kouznetsov. Superfunctions for amplifiers. [[Optical Review]], July 2013, Volume 20, Issue 4, pp 321-326.
  11 KB (1,565 words) - 18:26, 30 July 2019
• Gain medium
  ...'' (also called '''gain medium''' or '''lasing medium''') is the source of optical [[gain]] within a [[laser]]. The gain results from the [[stimulated emissi A.E.Siegman. Lasers. University Science Books (1986) sbn0-935702-11-3
  9 KB (1,441 words) - 14:33, 20 June 2013
• Pulling beam
  '''Pulling beam''' is the specially–shaped optical ray characterized in that, that acting to a certain passive particle in vac ...s and the resulting discussions arise from the fussy definition of terms [[optical beam]] and the [[wave packet]].
  1 KB (209 words) - 14:33, 20 June 2013
• Singapore 2011
  ==Application of superfunctions in the Laser science== with the application of the main result to the [[Laser Science]]
  8 KB (1,147 words) - 18:44, 30 July 2019
• Coherent atomic energetics
  D.Kouznetsov, E.Gomez. <!--Automodulation of optical pulses and limits of single-mode approximation. Self-modulation of optical pulses in a Kerr medium and limits of the single-mode approximation.
  10 KB (1,625 words) - 18:44, 30 July 2019
• Institute for Laser Science
  The '''Institute for Laser Science''' The Institute for Laser Science is located at 1-5-1 Chofugaoka, [[Chōfu, Tokyo|Chofu]], Tokyo, 182-8585, J
  12 KB (1,757 words) - 07:01, 1 December 2018
• Absorbing Schroedinger
  ...H.Obrest. Reflection of waves from a ridged surface and the Zeno effect. [[Optical Review]], 2005, v.12, No.5, p.363-366. ...and D.Kouznetsov. Waveguide Composed of Pinhole Array. Institute for Laser Science, UEC Chofu, Tokyo 182-8585, JAPAN. 2012-10-05 IWLS. (slideshow and poster)
  15 KB (2,070 words) - 18:47, 30 July 2019
• Кот Шредингера
  D.Kouznetsov, E.Gomez. Automodulation of optical pulses and limits of single-mode approximation. [[Category:Laser science]]
  5 KB (146 words) - 18:33, 30 July 2019

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