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574:{\displaystyle {\frac {\sigma _{\rm {a}}(\omega )}{\sigma _{\rm {e}}(\omega )}}=\exp \left(\hbar {\frac {\omega -\omega _{\rm {z}}}{k_{\rm {B}}T}}\right)}
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695:{\displaystyle ~{\ddot {x}}+(u+v{\rm {e}}^{x}){\dot {x}}+({\rm {e}}^{x}-1)=0~}
436:
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21:
983:
170:
58:
1085:
421:{\displaystyle \delta (x)\!~{\rm {sign}}(x)+{\rm {sign}}(x)\!~\delta (x)=0}
63:
50:
1248:
1107:
16:
847:, example, dummy reference as a template; more "official" templates:
1302:
28:
205:
laser based in active mirror (actually it the same article), FIg.1.
1136:
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1084:
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86:
discuss some articles or pics below, welcome to User_talk:Domitori
39:
27:
15:
920:
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908:
901:
308:{\displaystyle G=N_{2}\sigma _{\rm {e}}-N_{1}\sigma _{\rm {a}}}
167:, mirror with reflection coefficient larger than unity, Fig.1.
185:, atom optics imaging system with submicron resolution, Fig.4
1280:
http://stats.grok.se/en/200712/Image%3AAntarcticaSummer.jpg
707:, device (or a body) becomes too hot and cannot act as well
213:, fiber laser with longitudinal multi-mode pumping, FIg.2.
153:{\displaystyle {\frac {A}{A_{0}}}+{\frac {G}{G_{0}}}=1}
594:
457:
326:
251:
106:
173:, (example: Number of combined lasers cannot exceed
1274:
http://stats.grok.se/en/200712/Image%3ARectaDFC.png
715:, unwanted photoinduced absorption in laser media.
694:
573:
420:
307:
152:
1269:http://stats.grok.se/en/200712/Mount%20Kirigamine
745:, product of gain to path of light in gain medium
396:
339:
238:, ratio of duration of the signal to the period
221:, fiber laser with transversal delivery of pump
778:, suppression of transition by its observation
729:, reflection of atoms from solid-state mirrors
8:
1264:http://stats.grok.se/en/200712/Disk%20laser
737:, mirrors made of set of absorbers, Fig.3.
98:active laser medium#Model of a gain medium
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1316:User:Domitori/Russian-Georgian war(2008)
949:Journal of Vacuum Science and Technology
928:Journal of the Physical Society of Japan
1259:P.S. I check the statistics, for ex.,
1034:cited at Wiki should have a wiki-stub.
522:
1290:are more interesting than those about
7:
1300:(penguins) are more attractive than
1063:University of Electro Communications
1025:Theoretical and Mathematical Physics
835:User:Domitori/refs/quantum mechanics
898:Japanese Journal of Applied Physics
849:Knowledge (XXG):Citation templates
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873:Pic'ma v Astronomicheskii Zhurnal
171:ambiguity#Physics and mathematics
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1295:
1075:Japan Society of Applied Physics
892:IEEE J of Selected Topics in QE
229:, characteristic of shape of a
36:with rectangular inner cladding
1004:Reports on Progress in Physics
816:User:Domitori/refs/more_lasers
806:User:Domitori/refs/fiber_laser
723:, making a VERY POWERFUL laser
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1286:and I see, my articles about
1214:2008 Red Square demonstration
1207:1968 Red Square demonstration
1098:1968 Red Square demonstration
792:User:Domitori/refs/disk_laser
1069:Institute for Laser Science
1038:Physicists and Institutions
1011:Research Letters in Physics
1332:
1018:Solid State Communications
753:, transient phenomenon in
432:Interferometric microscopy
845:User:Domitori/refs/sample
53:File:Nanoscope figure.PNG
970:Optical Fiber Technology
942:Journal of Modern Optics
837:, about fundamentals of
963:Optics and Spectroscopy
935:Journal of Luminescence
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1058:Yuri Feodorovich Orlov
879:Chinese Optics Letters
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1150:Cellana nigrolineata
1045:Vladimir Krivchenkov
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318:Generalized function
249:
104:
84:Hi. If you want to
1276:(double-clad fiber)
1234:Brezhnev stagnation
997:Proceedings of SPIE
66:File:SelfPulsed.png
1221:Sofia Kalistratova
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867:Astronomy Letters
855:coherent addition
839:quantum mechanics
820:coherent addition
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83:
80:
1228:Larisa Arap
1193:Tenno beach
1142:Snow chains
828:gain medium
796:disk lasers
776:Zeno effect
771:overheating
705:overheating
435:, get good
236:fill factor
1187:Suruga bay
1181:Royal Hill
1170:mount Fuji
1164:Kurumayama
1157:Kirigamine
1122:Royal Hill
1112:Antarctica
437:resolution
202:disk laser
22:disk laser
1310:Sandboxes
1306:(DCF)...
984:Physica A
675:−
649:˙
605:¨
536:ω
532:−
529:ω
523:ℏ
515:
500:ω
486:σ
477:ω
463:σ
439:with low
401:δ
328:δ
295:σ
281:−
270:σ
59:Nanoscope
1249:Samizdat
818:, about
808:, about
794:, about
757:, Fig.5.
1288:physics
1108:Penguin
70:Fig.5.
57:Fig.4.
44:Fig.3.
32:Fig.2.
1294:, but
1292:mounts
826:and a
755:lasers
690:
596:
443:optics
398:
341:
1030:Each
921:JOSA
915:JOPB
909:JOPA
902:JJAP
870:and
798:and
763:and
74:and
853:6.
843:5.
833:4.
814:3.
804:2.
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260:N
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138:0
134:G
130:G
125:+
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114:A
110:A
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