Knowledge (XXG)

1118: 1128: 41: 1094: 1138: 1104: 1297: 1086: 29: 1303: 17: 579: 454: 700: 426: 313: 158: 891: 574:{\displaystyle {\frac {\sigma _{\rm {a}}(\omega )}{\sigma _{\rm {e}}(\omega )}}=\exp \left(\hbar {\frac {\omega -\omega _{\rm {z}}}{k_{\rm {B}}T}}\right)} 1315: 948: 927: 591: 323: 1062: 1024: 834: 872: 897: 248: 1074: 848: 1003: 815: 805: 103: 1213: 1206: 1097: 791: 1068: 1010: 1017: 431: 844: 969: 941: 962: 955: 934: 1057: 878: 1149: 1044: 317: 1233: 996: 97: 1117: 51: 1220: 1031: 783: 726: 440: 85: 1279: 1238: 1127: 866: 854: 838: 819: 447: 230: 209: 189: 174: 40: 33: 217: 181: 64: 1243: 1093: 989: 765: 741: 584: 75: 1174: 1051: 976: 823: 749: 711: 225: 71: 1273: 1253: 1199: 1131: 799: 760: 733: 719: 242: 194: 163: 45: 1268: 884: 1227: 1192: 1141: 827: 809: 775: 770: 704: 235: 1296: 1137: 1103: 1291: 1287: 1263: 1186: 1180: 1169: 1163: 1156: 1121: 1111: 795: 695:{\displaystyle ~{\ddot {x}}+(u+v{\rm {e}}^{x}){\dot {x}}+({\rm {e}}^{x}-1)=0~} 436: 201: 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: 1136: 1126: 1116: 1102: 1092: 1084: 754: 86: 39: 27: 15: 920: 914: 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: 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: 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 668: 662: 661: 643: 642: 633: 627: 626: 599: 598: 593: 553: 552: 539: 538: 525: 489: 488: 466: 465: 458: 456: 372: 371: 344: 343: 325: 298: 297: 287: 273: 272: 262: 250: 136: 127: 116: 107: 105: 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 663: 628: 554: 540: 490: 467: 382: 379: 376: 373: 354: 351: 348: 345: 299: 274: 14: 873:Pic'ma v Astronomicheskii Zhurnal 171:ambiguity#Physics and mathematics 1301: 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 680: 657: 639: 613: 502: 496: 479: 473: 409: 403: 393: 387: 365: 359: 336: 330: 1: 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 1144: 1134: 1124: 1114: 1100: 1090: 1058:Yuri Feodorovich Orlov 879:Chinese Optics Letters 696: 575: 422: 309: 154: 78: 61: 48: 37: 25: 20:FIg.1. Active mirror ( 1140: 1130: 1120: 1106: 1096: 1088: 769:, disfunction due to 697: 576: 423: 310: 155: 69: 56: 43: 31: 19: 1150:Cellana nigrolineata 1045:Vladimir Krivchenkov 592: 455: 324: 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 1145: 1135: 1125: 1115: 1101: 1091: 1032:scientific journal 784:User:Domitori/refs 727:quantum reflection 692: 571: 418: 305: 193:, possible way of 150: 79: 62: 49: 38: 26: 1239:Vladimir Bukovsky 867:Astronomy Letters 855:coherent addition 839:quantum mechanics 820:coherent addition 691: 651: 607: 597: 564: 506: 448:McCumber relation 399: 342: 231:double-clad fiber 210:double-clad fiber 190:coherent addition 142: 122: 92:Physical concepts 34:Double-clad fiber 1323: 1305: 1299: 1081:not only Science 701: 699: 698: 693: 689: 673: 672: 667: 666: 653: 652: 644: 638: 637: 632: 631: 609: 608: 600: 595: 580: 578: 577: 572: 570: 566: 565: 563: 559: 558: 557: 546: 545: 544: 543: 526: 507: 505: 495: 494: 493: 482: 472: 471: 470: 459: 427: 425: 424: 419: 397: 386: 385: 358: 357: 340: 314: 312: 311: 306: 304: 303: 302: 292: 291: 279: 278: 277: 267: 266: 218:fiber disk laser 182:atomic nanoscope 159: 157: 156: 151: 143: 141: 140: 128: 123: 121: 120: 108: 67: 54: 1331: 1330: 1326: 1325: 1324: 1322: 1321: 1320: 1312: 1244:Andrei Sakharov 1083: 1040: 1029: 1022: 1015: 1008: 1000: 994: 990:Physics Reports 987: 981: 974: 966: 960: 953: 946: 939: 932: 925: 905: 895: 889: 882: 876: 863: 787: 766:thermal loading 742:round-trip gain 660: 625: 590: 589: 585:oscillator Toda 548: 547: 534: 527: 521: 517: 484: 483: 461: 460: 453: 452: 322: 321: 293: 283: 268: 258: 247: 246: 197:of fiber lasers 132: 112: 102: 101: 94: 76:oscillator Toda 65: 52: 12: 11: 5: 1329: 1327: 1319: 1318: 1311: 1308: 1284: 1283: 1277: 1271: 1266: 1257: 1256: 1251: 1246: 1241: 1236: 1231: 1224: 1217: 1210: 1203: 1196: 1189: 1184: 1177: 1175:Mount Kumotori 1172: 1167: 1160: 1153: 1089:Glider at Fuji 1082: 1079: 1078: 1077: 1072: 1065: 1060: 1055: 1052:Yurii Shirokov 1048: 1039: 1036: 977:Optical Review 862: 859: 858: 857: 851: 841: 831: 824:self-pulsation 812: 802: 800:active mirrors 786: 781: 780: 779: 773: 758: 750:self-pulsation 746: 738: 730: 724: 716: 712:photodarkening 708: 702: 688: 685: 682: 679: 676: 671: 665: 659: 656: 650: 647: 641: 636: 630: 624: 621: 618: 615: 612: 606: 603: 581: 569: 562: 556: 551: 542: 537: 533: 530: 524: 520: 516: 513: 510: 504: 501: 498: 492: 487: 481: 478: 475: 469: 464: 444: 428: 417: 414: 411: 408: 405: 402: 395: 392: 389: 384: 381: 378: 375: 370: 367: 364: 361: 356: 353: 350: 347: 338: 335: 332: 329: 315: 301: 296: 290: 286: 282: 276: 271: 265: 261: 257: 254: 239: 233: 226:filling factor 222: 214: 206: 198: 186: 178: 168: 160: 149: 146: 139: 135: 131: 126: 119: 115: 111: 93: 90: 72:Self-pulsation 13: 10: 9: 6: 4: 3: 2: 1328: 1317: 1314: 1313: 1309: 1307: 1304: 1298: 1293: 1289: 1282:(penguin pic) 1281: 1278: 1275: 1272: 1270: 1267: 1265: 1262: 1261: 1260: 1255: 1254:Prague Spring 1252: 1250: 1247: 1245: 1242: 1240: 1237: 1235: 1232: 1230: 1229: 1225: 1223: 1222: 1218: 1216: 1215: 1211: 1209: 1208: 1204: 1202: 1201: 1200:Lake Yamanaka 1197: 1195: 1194: 1190: 1188: 1185: 1183: 1182: 1178: 1176: 1173: 1171: 1168: 1166: 1165: 1161: 1159: 1158: 1154: 1152: 1151: 1147: 1146: 1143: 1139: 1133: 1132:Lake Yamanaka 1129: 1123: 1119: 1113: 1109: 1105: 1099: 1095: 1087: 1080: 1076: 1073: 1071: 1070: 1066: 1064: 1061: 1059: 1056: 1054: 1053: 1049: 1047: 1046: 1042: 1041: 1037: 1035: 1033: 1027: 1026: 1020: 1019: 1013: 1012: 1006: 1005: 1001: 998: 992: 991: 986: 985: 979: 978: 972: 971: 967: 964: 958: 957: 956:Laser Physics 951: 950: 944: 943: 937: 936: 930: 929: 923: 922: 917: 916: 911: 910: 906: 903: 899: 894: 893: 887: 886: 881: 880: 875: 874: 869: 868: 861:Journal stubs 860: 856: 852: 850: 846: 842: 840: 836: 832: 829: 825: 821: 817: 813: 811: 807: 803: 801: 797: 793: 789: 788: 785: 782: 777: 774: 772: 768: 767: 762: 761:thermal shock 759: 756: 752: 751: 747: 744: 743: 739: 736: 735: 734:ridged mirror 731: 728: 725: 722: 721: 720:power scaling 717: 714: 713: 709: 706: 703: 686: 683: 677: 674: 669: 654: 648: 645: 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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. 790:1. 512:exp 100:, 938:, 904:), 822:, 588:, 451:, 441:NA 320:, 175:10 88:. 81:. 24:). 1110:, 1028:, 1021:, 1014:, 1007:, 999:, 993:, 980:, 973:, 965:, 959:, 952:, 945:, 931:, 924:, 918:, 912:, 900:( 888:, 830:. 687:0 684:= 681:) 678:1 670:x 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