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File:KellerDoyaT.png Comparison of the [[transfer function]]s for realistic laser amplifiers at the continuous–wave operation (the [[Doya function]]) and f [[Category:Laser science]](661 × 881 (70 KB)) - 08:39, 1 December 2018File:KellerMapT.png [[Category:Laser science]](1,773 × 1,752 (1 MB)) - 08:39, 1 December 2018File:KellerPlotT.png [[Category:Laser science]](870 × 885 (118 KB)) - 08:39, 1 December 2018File:LambertWmap150.png [[Category:Laser science]](1,773 × 1,752 (523 KB)) - 08:41, 1 December 2018File:LaserLevels1.png Scheme of laser levels of Yb: dopant; the distance between sub-levels is exaggerated. [[Category:Laser science]](660 × 1,000 (35 KB)) - 09:39, 21 June 2013File:MacCumberViFig1.jpg Cross-sections of the new laser medium versus wavelength, reported in series of publications in 2006 (thick Efficient diode-pumped Yb:Gd_2 Si O_5 laser. Appl.Phys.Lett. v.88, 221117 (2006)(857 × 448 (58 KB)) - 07:24, 21 June 2020File:McCumberRelationActiveCemters.png Active centers of a composite [[laser medium]] in the simplest two-level approximation [[Category:Laser science]](676 × 362 (19 KB)) - 11:21, 21 June 2013File:MicroChipAtomicTrap00.jpg [[Institute for Laser Science|ILS]], [[Japan]]. ...o play with the effective potential along this wire. The interaction with laser beams and reduction of the trapping potential allow the additional cooling(890 × 976 (44 KB)) - 09:39, 21 June 2013File:Perpetualmo.jpg $\rm Yb : Gd_2 Si O_5$ laser. [[Appl. Phys. Lett.]] 88, 221117 (2006). ...J.Xu. Diode-pumped continuous-wave and passively mode-locked Yb : Gd2SiO5 laser. – [[Optics Express]] 14, 686-695 (2006)(766 × 572 (33 KB)) - 09:38, 21 June 2013File:ShokaMapT.png [[Category:Laser science]](1,773 × 1,752 (992 KB)) - 08:51, 1 December 2018File:ShokopPlotAT.png [[Category:Laser science]](1,669 × 955 (129 KB)) - 09:43, 21 June 2013File:SimudoyaTb.png $T$ can be interpreted as a transfer function of the idealized laser amplifier; its superfunction $F$ describes the evolution of the normalized(3,388 × 1,744 (537 KB)) - 08:51, 1 December 2018File:TaniaContourPlot100.png [[Category:Laser science]](1,182 × 1,168 (931 KB)) - 08:53, 1 December 2018File:TaniaPlot.png Such an equation (and the solution) appears in the [[Laser science]] in the simplest model of the uniformly pumped [[gain medium]]. [[Category:Laser science]](807 × 424 (16 KB)) - 09:39, 21 June 2013File:TodaShow.png ...f the shape of the pulses in the output beam of a diode-pumped solid-state laser in the transient regime ([[self-pulsation]] to the simple model of [[Oscill D.Kouznetsov, J.-F.Bisson, J.Li, K.Ueda. Self-pulsing laser as oscillator Toda: approximation of the solution through elementary functi(1,707 × 317 (155 KB)) - 09:39, 21 June 2013File:UndopedCap.jpg Uncovered [[active mirror]] (disk laser) compared to that with undoped cap. The undoped layer prevents the internal |title=High average power scaleable thin-disk laser(2,784 × 1,102 (97 KB)) - 09:39, 21 June 2013File:UndopedCapFig1.gif Uncovered [[active mirror]] (disk laser) compared to that with undoped cap. The undoped layer prevents the internal |title=High average power scaleable thin-disk laser(1,605 × 622 (75 KB)) - 09:39, 21 June 2013File:ValerieDoya.jpg ...earches of [[superfunction]]s and first attempts of their application in [[laser science]] in 2008.(97 × 142 (23 KB)) - 20:24, 20 June 2013File:03038danaAnderson.jpg at the [[Institute for Laser Science]] [[Category:Institute for Laser Science]](2,048 × 1,536 (1.18 MB)) - 08:24, 1 December 2018File:03039danaAnderson.jpg at the [[Institute for Laser Science]] [[Category:Institute for Laser Science]](2,048 × 1,536 (1.23 MB)) - 08:24, 1 December 2018