S
Szymon Suckewer
Researcher at Princeton University
Publications - 184
Citations - 4843
Szymon Suckewer is an academic researcher from Princeton University. The author has contributed to research in topics: Laser & Plasma. The author has an hindex of 39, co-authored 184 publications receiving 4715 citations.
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Journal ArticleDOI
Amplification of stimulated soft x-ray emission in a confined plasma column.
TL;DR: Une amplification atteignant 100 de l'emission stimulee sur l'semission spontanee de la raie CVI 182 A a ete mesuree dans une colonne de plasma magnetiquement confinee, par deux methodes independantes utilisant des monochromateurs UV extreme etalonnes en intensite.
Journal ArticleDOI
High‐resolution duo‐multichannel soft x‐ray spectrometer for tokamak plasma diagnostics
TL;DR: A high-resolution, time-resolving soft x-ray multichannel spectrometer (SOXMOS) that permits the simultaneous measurement of emission in two different spectral ranges has been developed and tested extensively for tokamak plasma diagnostics as discussed by the authors.
Journal ArticleDOI
Attainment of high confinement in neutral beam heated divertor discharges in the PDX tokamak
Stanley Kaye,M. G. Bell,K. Bol,D. A. Boyd,K. Brau,D. Buchenauer,Robert Budny,A. Cavallo,P. Couture,T. Crowley,D.S. Darrow,H.P. Eubank,R. J. Fonck,Robert James Goldston,B. Grek,K. P. Jaehnig,David W. Johnson,R. Kaita,H.W. Kugel,B. LeBlanc,J. Manickam,Dennis M. Manos,D. K. Mansfield,E. Mazzucato,R. T. McCann,D. C. McCune,K. McGuire,D. Mueller,A. Murdock,M. Okabayashi,Kunihiko Okano,D. K. Owens,Douglass E. Post,M. Reusch,G. L. Schmidt,S. Sesnic,R. Slusher,Szymon Suckewer,Clifford M Surko,H. Takahashi,F. Tenney,H. H. Towner,J. Valley +42 more
TL;DR: In this paper, the PDX divertor configuration has been converted from an open to a closed geometry to inhibit the return of neutral gas from the divertor region to the main chamber.
Journal ArticleDOI
Demonstration of Soft X-Ray Lasing to Ground State in Li III.
TL;DR: Soft x-ray lasing with a gain length GL{approx_equal}5 was demonstrated in hydrogenlike LiIII at 13.5 nm (2-1 transition) in a 5 mm long LiF microcapillary using a 50 mJ, 250 fs UV laser beam at a 2 Hz repetition rate.
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A new method for generating ultraintense and ultrashort laser pulses
TL;DR: In this paper, the use of stimulated Raman backscattering in a millimetre-scale plasma to simultaneously amplify and compress an input pulse to increase its intensity by more than two orders of magnitude was reported.