Knowledge

46: 35: 792: 303: 153:. In 1939, Valentin A. Fabrikant made the earliest laser proposal. He specified the conditions required for light amplification using stimulated emission. In 1947, 91:, and the temporal evolution of the light field in the laser. It is also concerned with the physics of laser beam propagation, particularly the physics of 157: 311: 413: 306:[The risk from laser: what it is and what it is like facing it; analysis of a problem which is thus not far away from us.]. 752: 138: 464: 431: 258: 491: 661: 208: 17: 220: 168: 45: 717: 521: 336: 276: 28: 387: 361: 304:"Il rischio da laser: cosa è e come affrontarlo; analisi di un problema non così lontano da noi" 816: 691: 511: 193: 579: 391: 263: 134: 149: 686: 569: 557: 484: 142: 84: 8: 737: 656: 596: 516: 383: 237: 173: 150: 146: 88: 72: 437: 96: 76: 757: 631: 606: 441: 427: 189: 181: 767: 732: 712: 681: 419: 205: 100: 201: 795: 676: 666: 477: 216: 185: 162: 122: 772: 762: 722: 671: 589: 542: 526: 232: 158: 154: 104: 80: 165:, experimentally confirmed, two years later, by Brossel, Kastler, and Winter. 810: 727: 707: 574: 197: 169: 92: 39: 34: 747: 616: 611: 552: 777: 638: 621: 601: 133:’s law of radiation using a formalism based on probability coefficients ( 626: 212: 130: 49: 742: 584: 564: 547: 423: 196: 61: 500: 126: 116: 65: 121: 469: 292: 192: 161:(Nobel Prize for Physics 1966) proposed the method of 27:"Laser physics" redirects here. For the journal, see 308: 288: 286: 808: 382: 283: 485: 415:Introduction to Laser Science and Engineering 341:Presentation Speech by Professor Ivar Waller 129:in 1917, via a paper in which he re-derived 71:Laser science is principally concerned with 492: 478: 180:in May 1952. The first maser was built by 178:All-Union Conference on Radio Spectroscopy 125:created the foundations for the laser and 64:that describes the theory and practice of 257: 44: 33: 753:Multiple-prism grating laser oscillator 418:(1st ed.). Boca Raton: CRC Press. 215:) was demonstrated on May 16, 1960, by 14: 809: 411: 301: 473: 99:, and with associated fields such as 83:design, the physics of producing a 24: 465:A very detailed tutorial on lasers 354: 211:The first working laser (a pulsed 25: 828: 458: 412:Taylor, Travis (20 August 2019). 362:"The Nobel Prize in Physics 2018" 337:"The Nobel Prize in Physics 1966" 791: 790: 662:Amplified spontaneous emission 405: 376: 329: 295: 251: 13: 1: 245: 310:(in Italian). Archived from 221:Hughes Research Laboratories 7: 718:Chirped pulse amplification 226: 10: 833: 522:List of laser applications 499: 114: 110: 26: 786: 700: 647: 535: 507: 38:A laser experiment on an 302:Batani, Dimitri (2004). 29:Laser Physics (journal) 512:List of laser articles 271:Cite journal requires 194:Nobel Prize in Physics 50: 42: 392:University of Chicago 135:Einstein coefficients 48: 37: 687:Population inversion 384:Townes, Charles Hard 143:spontaneous emission 85:population inversion 738:Laser beam profiler 657:Active laser medium 597:Free-electron laser 517:List of laser types 238:List of laser types 174:Alexander Prokhorov 151:Rudolf W. Ladenburg 147:stimulated emission 73:quantum electronics 364:. Nobel Foundation 97:laser applications 77:laser construction 51: 43: 804: 803: 758:Optical amplifier 607:Solid-state laser 388:"The first laser" 190:Herbert J. Zeiger 182:Charles H. Townes 16:(Redirected from 824: 794: 793: 768:Optical isolator 733:Injection seeder 713:Beam homogenizer 692:Ultrashort pulse 682:Lasing threshold 494: 487: 480: 471: 470: 453: 452: 450: 448: 409: 403: 402: 400: 398: 380: 374: 373: 371: 369: 358: 352: 351: 349: 347: 333: 327: 326: 324: 322: 317:on June 14, 2007 316: 299: 293: 290: 281: 280: 274: 269: 267: 259: 255: 206:Donna Strickland 101:nonlinear optics 21: 832: 831: 827: 826: 825: 823: 822: 821: 807: 806: 805: 800: 782: 696: 677:Laser linewidth 667:Continuous wave 643: 536:Types of lasers 531: 503: 498: 461: 456: 446: 444: 434: 410: 406: 396: 394: 381: 377: 367: 365: 360: 359: 355: 345: 343: 335: 334: 330: 320: 318: 314: 300: 296: 291: 284: 272: 270: 261: 260: 256: 252: 248: 229: 217:Theodore Maiman 186:James P. Gordon 163:optical pumping 123:Albert Einstein 119: 113: 60:is a branch of 32: 23: 22: 15: 12: 11: 5: 830: 820: 819: 802: 801: 799: 798: 787: 784: 783: 781: 780: 775: 773:Output coupler 770: 765: 763:Optical cavity 760: 755: 750: 745: 740: 735: 730: 725: 723:Gain-switching 720: 715: 710: 704: 702: 698: 697: 695: 694: 689: 684: 679: 674: 672:Laser ablation 669: 664: 659: 653: 651: 645: 644: 642: 641: 636: 635: 634: 629: 624: 619: 614: 604: 599: 594: 593: 592: 587: 582: 577: 572: 570:Carbon dioxide 562: 561: 560: 558:Liquid-crystal 555: 545: 543:Chemical laser 539: 537: 533: 532: 530: 529: 527:Laser acronyms 524: 519: 514: 508: 505: 504: 497: 496: 489: 482: 474: 468: 467: 460: 459:External links 457: 455: 454: 432: 424:10.1201/b22159 404: 375: 353: 328: 294: 282: 273:|journal= 249: 247: 244: 241: 240: 235: 233:Laser acronyms 228: 225: 159:Alfred Kastler 155:Willis E. Lamb 112: 109: 105:quantum optics 93:Gaussian beams 81:optical cavity 9: 6: 4: 3: 2: 829: 818: 817:Laser science 815: 814: 812: 797: 789: 788: 785: 779: 776: 774: 771: 769: 766: 764: 761: 759: 756: 754: 751: 749: 746: 744: 741: 739: 736: 734: 731: 729: 728:Gaussian beam 726: 724: 721: 719: 716: 714: 711: 709: 708:Beam expander 706: 705: 703: 699: 693: 690: 688: 685: 683: 680: 678: 675: 673: 670: 668: 665: 663: 660: 658: 655: 654: 652: 650: 649:Laser physics 646: 640: 637: 633: 630: 628: 625: 623: 620: 618: 615: 613: 610: 609: 608: 605: 603: 600: 598: 595: 591: 588: 586: 583: 581: 578: 576: 573: 571: 568: 567: 566: 563: 559: 556: 554: 551: 550: 549: 546: 544: 541: 540: 538: 534: 528: 525: 523: 520: 518: 515: 513: 510: 509: 506: 502: 495: 490: 488: 483: 481: 476: 475: 472: 466: 463: 462: 443: 439: 435: 433:9781315178561 429: 425: 421: 417: 416: 408: 393: 389: 385: 379: 363: 357: 342: 338: 332: 313: 309: 305: 298: 289: 287: 278: 265: 254: 250: 243: 239: 236: 234: 231: 230: 224: 222: 218: 214: 209: 207: 203: 202:Gérard Mourou 199: 198:Arthur Ashkin 195: 191: 187: 183: 179: 175: 171: 170:Nikolay Basov 166: 164: 160: 156: 152: 148: 144: 140: 136: 132: 128: 124: 118: 108: 106: 102: 98: 94: 90: 86: 82: 78: 74: 69: 67: 63: 59: 58:laser physics 55: 54:Laser science 47: 41: 40:optical table 36: 30: 19: 18:Laser physics 748:Mode locking 701:Laser optics 648: 445:. 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Retrieved 315:(Powerpoint) 312:the original 307: 297: 264:cite journal 253: 242: 210: 177: 167: 120: 70: 57: 53: 52: 778:Q-switching 639:X-ray laser 632:Ti-sapphire 602:Laser diode 580:Helium–neon 447:January 25, 397:October 17, 346:October 17, 89:laser media 321:January 1, 246:References 213:ruby laser 139:absorption 137:) for the 131:Max Planck 115:See also: 743:M squared 565:Gas laser 548:Dye laser 442:201244143 368:2 October 811:Category 796:Category 590:Nitrogen 227:See also 575:Excimer 219:at the 176:at the 111:History 95:, with 617:Nd:YAG 612:Er:YAG 553:Bubble 501:Lasers 440:  430:  204:, and 188:, and 145:, and 66:lasers 62:optics 622:Raman 438:S2CID 127:maser 117:Laser 627:Ruby 449:2021 428:ISBN 399:2010 370:2018 348:2010 323:2007 277:help 172:and 103:and 585:Ion 420:doi 87:in 56:or 813:: 436:. 426:. 390:. 386:. 339:. 285:^ 268:: 266:}} 262:{{ 223:. 200:, 184:, 141:, 107:. 79:, 75:, 68:. 493:e 486:t 479:v 451:. 422:: 401:. 372:. 350:. 325:. 279:) 275:( 31:. 20:)