897:
807:
415:
785:
655:
For his contributions to experimental and theoretical high resolution molecular spectroscopy. As one example, his work on H3+ has revolutionized the field of infrared spectroscopy of molecular ions, but the breadth and quality of his work is such that all aspects of his distinguished career spanning
637:
For his important contributions to the theory of long-range molecular states, the spectroscopy of alkali-dimer and alkali-hydride diatomic molecules, and the theory of the stability of spin-polarized hydrogen. Recognition is also given to his leadership and teaching in the field of laser science and
673:
For his invention of powerful high resolution spectroscopic methods, including stimulated emission pumping, which have found widespread application. These methods, combined with his definitive studies of perturbations in diatomic molecular spectra, have changed the way we think about molecular
130:
For expanding the horizons of impulsive stimulated Raman scattering (ISRS) to the generation of intense tunable terahertz pulses, thus establishing new transient-grating techniques for a more effective application of time-domain coherent nonlinear spectroscopy in the study of condensed phase
354:
For ground-breaking work on the ultra high resolution spectroscopy of
Rydberg states of atoms and molecules, and for the refinement of high-resolution photoelectron spectroscopy and its application to the determination of the structural and dynamical properties of molecular
476:
For advancing molecular spectroscopy by experiment and theory on infrared- and Raman-ultraviolet double resonance, coherent Raman spectroscopy, cavity ringdown spectroscopy, photoelectron spectroscopy, nonlinear optics, and tunable coherent light
218:
For the invention of the chirped-pulse
Fourier transform microwave technique, which revolutionized rotational spectroscopy, leading to an explosion of novel spectroscopic, astrochemical, analytical, dynamical, and chemical kinetics
165:
For pioneering systematic studies of small transition-metal-containing molecules, including precise measurements of bond energies by the discovery and exploitation of sharp predissociation thresholds in highly congested electronic
963:
In recognition of both his theoretical and experimental contributions to a better understanding of the interaction of radiation with atoms, especially for his contributions to the development of the method of quantum-beat
1172:
For seminal contributions to atomic spectroscopy, including extensive studies of the Sun, and tables of atomic spectra and energy levels. (Worked with
Meggers on ytterbium and was the first women to receive the
291:
For contributions to precision measurements of nonsequential double ionization, exploration of strong field interaction scaling properties from mid-infrared to X-ray and innovative experiments of time-resolved.
381:
For seminal contributions to the development of diode lasers as powerful spectroscopic tools, development of femtosecond combs, and demonstration of unique quantum effects in the interaction between light and
903:
For his discoveries of powerful techniques for high-resolution laser spectroscopy, and their application to fundamental problems of physics, particularly through precision measurements on atomic hydrogen.
700:
For seminal contributions to the understanding of the nature of atomic and molecular negative ions (especially doubly-charged anions) and to the field of multiphoton excitation processes in the gas phase.
329:
For contributions to the field of ultrafast spectroscopy of semiconductors, including multidimensional
Fourier transform techniques, and for contributions to the development of femtosecond frequency comb
611:
For his experimental and theoretical contributions to the understanding of the molecular structure and dynamics of weakly bound molecules through the use of high-resolution infrared laser spectroscopy.
183:
For pioneering contributions in the fundamental science of optical and spin coherence and their synergistic applications in optical spectroscopy/microscopy and magnetic resonance spectroscopy/imaging.
791:
For his outstanding contributions to spectroscopy, including development of the hydrogen maser, spectroscopy of
Rydberg states, and analysis of the interaction of atoms with electromagnetic fields.
421:
For leadership in the development of innovative experiments providing major insights into the dynamics of the non-linear response of atoms and molecules submitted to strong infrared laser pulses.
148:
For seminal studies of the properties and dynamics of surfaces, interfaces, and nanoscale materials by diverse spectroscopic techniques, including through the development of powerful new methods.
717:
For pioneering work in manipulation, cooling, and trapping of neutral particles by laser light, and for the first optical spectroscopy of the short-lived laptonicatoms, positronium and muonium.
244:
For seminal contributions to precision photoassociation and magnetic-Feshbach spectroscopy of ultracold atoms, and the application of these techniques to the formation of cold polar molecules.
200:
For developing the theoretical framework of coherent multidimensional spectroscopy for electronic excitations in the optical regime and proposing extensions to the x-ray spectral regime.
555:
For pioneering work in the development of the submillimeter-wave region of the electromagnetic spectrum and its application to scientific problems in physics, chemistry, and astronomy.
981:
In recognition of his innovative use of lasers in spectroscopy, particularly his studies of stimulated and inverse Raman and
Brillouin scattering and of highly excited atomic states.
1087:
In recognition of his contributions to atomic spectroscopy, particularly his studies of autoionization, diamagnetic Zeeman effects, and absorption of high
Rydberg-series members.)
98:
For pioneering ultra-sensitive action spectroscopy with fundamental applications to spectra of molecular ions, particularly CH5+, and their key roles in astrochemistry.
813:
For his conception of novel, high sensitivity, high accuracy, spectroscopic techniques, their realization, and their application to fundamental measurements.
581:
For his work in the development and use of high resolution infrared spectroscopy in the study of loosely bonded clusters in the gas-phase as well as in
399:
For major contributions to the foundations of laser spectroscopy, and for pioneering developments in the application of spectroscopy to biomedicine.
459:
spectroscopy by photo-detachment, the development of anion zero-electron-kinetic-energy spectroscopy and time-resolved photoelectron spectroscopy.
743:
For the development of high resolution spectroscopy of molecular ions and radicals and the insightful interpretation of the resulting spectra.
270:
For outstanding achievements in high resolution atomic spectroscopy and metrology of fundamental constants, leading to far-reaching tests of
1519:
1847:
1545:
115:
For seminal developments in ultrafast nonlinear spectroscopy, which have heavily influenced the chemical physics spectroscopy landscape.
1356:
502:
529:
For seminal contributions to high-resolution, high accuracy laser spectroscopy with applications to fundamental metrology and clocks.
1801:
1137:
1103:
1077:
1056:
1035:
997:
919:
759:
733:
690:
627:
601:
571:
545:
371:
260:
864:
For outstanding contributions to atomic spectroscopy, especially its application to the understanding of the physics of plasmas.
35:(originally called the Optical Society of America) for outstanding contributions to spectroscopy. It was established to honor
1272:
881:
For contributions to atomic and molecular spectroscopy, particularly in the analysis of problems of astrophysical interest.
1821:
847:
For contributions to the basic chemistry, spectroscopy, and physics of atomic and molecular negative ion spectroscopy.
1298:
1247:
896:
806:
414:
36:
1166:
940:
784:
1098:
1007:
In recognition of his leadership in the measurement and analysis of actinide crystal and atomic spectroscopy.
488:
271:
1224:
1132:
622:
1852:
516:
685:
92:
1381:
1051:
596:
255:
159:
1775:
1697:
1652:
1485:
1442:
1072:
914:
892:
728:
566:
493:
393:
992:
540:
438:
For development of innovative spectroscopic techniques based on femtosecond optical frequency combs.
341:
1154:
754:
309:
231:
1030:
366:
1205:
1184:
975:
875:
841:
946:
For his outstanding contributions to the understanding of the spectra of complex atoms and ions.
75:
346:
1797:
1748:
1713:
1670:
1622:
1587:
1501:
1458:
1337:
802:
449:
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40 years have had a significant impact in the fields of chemistry, physics, and astrophysics.
1740:
1705:
1660:
1614:
1579:
1493:
1450:
1329:
1018:
456:
285:
177:
109:
769:
For his outstanding research on complex atomic spectra and spectra of highly ionized atoms.
455:
For pioneering contributions to the molecular spectroscopy of transient species, including
1817:
1119:
780:
667:
410:
32:
830:
For his novel analyses of spectroscopic phenomena in the framework of collision dynamics.
1779:
1701:
1656:
1489:
1446:
17:
521:
323:
302:
308:
For exceptional contributions to coherent generation and detection of ultra-broadband
1841:
957:
929:
For his world-recognized contributions to the theory of atomic structure and spectra.
858:
582:
194:
236:
40:
1324:
Cogan, Sarah (2 April 2012). "The
Optical Society Announces 18 Awards for 2012".
81:
For pioneering broadband molecular spectroscopy with interfering frequency combs.
649:
211:
1104:
711:
142:
1752:
1717:
1674:
1626:
1591:
1505:
1462:
1341:
1194:
and for analyses of atomic spectra in a career covering a period of 45 years
1191:
470:
44:
1138:
628:
824:
1407:
691:
1057:
602:
261:
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1454:
1333:
1078:
920:
734:
572:
998:
546:
432:
760:
1036:
372:
1731:"OSA Awards Mark Achievements in Many Facets of Optical Science".
1688:"OSA Awards Mark Achievements in Many Facets of Optical Science".
1651:(47). American Chemical Society (ACS): 13064. 26 November 2009.
1299:"Optical Society Announces Awards for 2014 – New York Photonics"
638:
a lifetime of professional services to the scientific community.
501:
For seminal contributions to the development and application of
1357:"NIST/JILA Physicist Wins Optical Society's Meggers Award"
1273:"Optica Names 2022 Award Winners for Service in Photonics"
1303:
New York
Photonics – Rochester Regional Photonics Cluster
1605:"Optical Society of America Announces Awards for 1998".
1766:"Meggers, William F., 1981 Award, Boris P. Stoicheff".
63:
8:
31:has been awarded annually since 1970 by the
1570:"OSA Recognizes Contributions to Optics".
1433:"OSA names recipients of awards, medals".
54:
1664:
1524:Home - Oklahoma State University Library
1236:
39:and his contributions to the fields of
1641:"Awards and Honors of Robert W. Field"
1190:For his analyses of atomic spectra of
1242:
1240:
7:
1796:. Infobase Publishing. p. 675.
1408:"Feld wins major spectroscopy award"
1645:The Journal of Physical Chemistry A
1484:(11). AIP Publishing: 72–73. 2006.
1441:(7). AIP Publishing: 75–76. 2007.
503:Terahertz time-domain spectroscopy
25:
1794:Encyclopedia of World Scientists
1476:"OSA hands out awards, medals".
895:
805:
783:
413:
1739:(7). AIP Publishing: 86. 1989.
1696:(7). AIP Publishing: 85. 1989.
1613:(6). AIP Publishing: 88. 1998.
1578:(7). AIP Publishing: 68. 1999.
312:for far-infrared spectroscopy.
1:
1792:Oakes, Elizabeth H. (2007).
1355:Ost, Laura (12 April 2011).
1382:"OSA Announces 2010 Awards"
1279:. Pittsfield, MA. June 2022
1869:
1848:Awards of Optica (society)
1822:"William F. Meggers Award"
1252:Optical Society of America
1248:"William F. Meggers Award"
1550:American Physical Society
37:William Frederick Meggers
1167:Charlotte Moore Sitterly
941:William Clyde Martin Jr.
29:William F. Meggers Award
18:William F. Meggers Award
1099:Jean Blaise (scientist)
272:quantum electrodynamics
1520:"Grischkowsky, Daniel"
1225:List of physics awards
489:Daniel R. Grischkowsky
1780:1981ApOpt..20S.125.
1702:1989PhT....42g..85.
1657:2009JPCA..11313064.
1490:2006PhT....59k..72.
1447:2007PhT....60g..75.
1155:Curtis J. Humphreys
1133:Harry Lambert Welsh
623:William C. Stwalley
131:molecular dynamics.
1328:. AIP Publishing.
1206:George R. Harrison
1185:Allen G. Shenstone
976:Boris P. Stoicheff
876:Alexander Dalgarno
842:W. Carl Lineberger
517:James C. Bergquist
1745:10.1063/1.2811099
1710:10.1063/1.2811098
1666:10.1021/jp9093194
1619:10.1063/1.2805864
1584:10.1063/1.2802804
1546:"James Bergquist"
1526:. 3 November 2015
1498:10.1063/1.2435655
1455:10.1063/1.2761812
1334:10.1063/pt.4.0408
1213:
1212:
893:Theodor W. Hänsch
803:David J. Wineland
686:Robert N. Compton
450:Daniel M. Neumark
93:Stephan Schlemmer
16:(Redirected from
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1414:. 31 August 2009
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457:transition state
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286:Louis F. DiMauro
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256:François Biraben
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178:Warren S. Warren
160:Michael D. Morse
110:Michael D. Fayer
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1305:. 28 March 2014
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915:Robert D. Cowan
781:Daniel Kleppner
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729:Terry A. Miller
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668:Robert W. Field
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567:Roger E. Miller
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411:Pierre Agostini
394:Michael S. Feld
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310:Terahertz waves
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76:Nathalie Picqué
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33:Optical Society
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1774:: a125. 1981.
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1388:. 19 May 2010
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1842:Categories
1827:2011-11-20
1283:19 October
1231:References
712:Steven Chu
143:Tony Heinz
64:Rationale
51:Recipients
1768:Appl. Opt
1753:0031-9228
1718:0031-9228
1675:1089-5639
1627:0031-9228
1592:0031-9228
1555:7 October
1530:7 October
1506:0031-9228
1463:0031-9228
1418:7 October
1392:7 October
1366:7 October
1342:1945-0699
1309:7 October
1257:4 October
1192:ruthenium
585:droplets.
45:metrology
1412:MIT News
1219:See also
1215:Source:
1139:Wikidata
1105:Wikidata
1079:Wikidata
1058:Wikidata
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999:Wikidata
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825:Ugo Fano
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477:sources.
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355:cations.
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