UA-25427628-1

Publications


  1. SPATIALLY RESOLVED OBSERVATION OF THE SPECTRAL HOLE BURNING IN THE XE(L) AMPLIFIER ON SINGLE (2P) AND DOUBLE (2S2P) VACANCY 3D→2P TRANSITIONS IN THE 2.62Å-2.94Å RANGE Journal of Physics B: At. Mol. Opt. Phys., Volume 43, Number 4, pp. 045402 (10pp), 28 February 2010.

  2. POWER SCALING OF THE XE(L) AMPLIFIER AT λ~2.8Å INTO THE PETAWATT REGIME; Journal of Physics B: At. Mol. Opt. Phys.,Volume 43, Number 1, pp. 015402, 14 January 2010.

  3. THE NUCLEAR EPOCH OF LASER INTERACTIONS; American Institute of Physics (AIP) Conference Proceedings, Volume 1197, Issue 1, pp. 42-47, December 3, 2009. (The Fourth International Symposium “Atomic Cluster Collisions: Structure and Dynamics from the Nuclear to the Biological Scale” (ISACC 2009)); doi:10.1063/1.3275687

  4. REALIZATION OF THE CONCEPTUAL IDEAL FOR X-RAY AMPLIFICATION Journal of Physics B: At. Mol. Opt. Phys. Volume 41, Number 10, 105602 (6pp), 28 May 2008.

  5. TEMPERATURE ENHANCEMENT OF XE(L) X-RAY AMPLIFIER (Λ ~ 2.9 Å) EMISSION; Journal of Physics B: At. Mol. Opt. Phys. Volume 40, Number 22, pp. F307-F312, 28 November 2007.

  6. Double Optimization of Xe(L) Amplifier Power Scaling at~2.9 Å J. Phys. B 40, F131 ( 2007)

  7. Single-Pulse Characteristics of the Xe(L) Amplifier on the Xe35+ (3d -> 2p) Transition Array at 2.86 Å J. Phys. B  39, L313 (2006). (IOP Select Paper)

  8. Xe(L) Coherent X-Ray Source at ~ 2.9 Å for Biological Nanoimaging Superstrong Fields in Plasmas AIP Conference Proceedings, Vol. 827, ed. Dimitri Batani and Maurizio Lontano (AIP, Melville, NY, 2006) p. 457.

  9. Explosive Supersaturated Amplification on 3d-->2p Xe(L) Hollow Atom Transitions at λ ~ 2.7?2.9 Å J. Phys. B38, 3055 (2005)

  10. Vom Feuer zum Gamma-Blitz, Neue Zürcher Zeitung,Nr. 274, 23 November 2005, S.65.

  11. Xe(L) Coherent X-Ray Source at λ ~ 2.9 Å for Biological Nanoimaging, AIP Proceedings of the Third International Conference on Superstrong Plasma Fields in Plasmas, Varenna, Italy, 19-24 September 2005, in press.

  12. Cryptographic Unification of Mass and Space Links Neutrino Flavor (νe νμ) Transformations with the Cosmological Constant Λ Int. J. Mod. Phys. A, 18, 4257 (2005).

  13. Explosive Supersaturated Amplification on 3d-->2p Xe(L) Hollow Atom Transitions at λ ~ 2.7?2.9 Å J. Phys. B38, 3055 (2005).

  14. Amplification at λ ~ 2.8 Å on Xe(L) Double-Vacancy States Produced by 248 nm Excitation of Xe Clusters in Plasma Channels J. Phys. B, 38, 3935 (2005).

  15. Multikilovolt Channeled X-Ray Propagation in Water, J. Phys. B  38, L 309 (2005).


  16. Modeling of Clusters in a Strong 248-nm Laser Field by a Three-Dimensional Relativistic Molecular Dynamic Model, Phys. Rev. E 71, 036411 (2005).


  17. Quadratic Reciprocity, the Higgs Mass, and Complexity,Advanced Studies in Contemporary Mathematics 10, 149 (2005)

  18. Optimization of Power Compression and Stability of Relativistic and Ponderomotive Self-Channeling of 248 nm Laser Pulses in Underdense Plasmas,Phys. Rev. E 70, 066406 (2004)


  19. The Nuclear Era of Laser Interactions-New Milestones in the History of Power Compression, Laser & Nuclei: Applications of Ultra-high Intensity Lasers in Nuclear Science (Springer-Verlag, Heidelberg, in press).

  20. Amplification of Multikilovolt Xe(L) Hollow Atom Transitions with Xe Clusters in Confined Plasma Channels, Ultrafast Optics IV (Springer-Verlag, New York, April, 2004) p. 343.

  21. Saturated multikilovolt x-ray amplification with Xe clusters: single-pulse observation of Xe(L) spectral hole burning, J. Phys. B 36 L285-294 (2003).


  22. Ultrabright multikilovolt coherent tunable x-ray source at ~2.71-2.93 Angstroms, J. Phys. B 36, 3433-3455 (2003).


  23. Ultraviolet-infrared wavelength scalings for strong field induced L-shell emissions from Kr and Xe clusters, J. Phys. B 35, L461-468 (2002).


  24. Bifurcation mode of relativistic and charge-displacement self-channelling, J. Phys. B 34, 2167-2176 (2001).


  25. An efficient, selective collisional ejection mechanism for inner-shell population inversion in laser-driven plasmas, J. Phys. B 34, 297-319 (2001).


  26. Dynamics of optimized stable channel formation of intense laser pulses with the relativistic/charge-displacement mechanism, J. Phys. B 32, 3511-3525(1999).


  27. Pump laser wavelength-dependent control of the efficiency of kilovolt x-ray emission from atomic clusters, J. Phys. B 31, 5031-5051 (1998).


  28. Stable relativistic/charge-displacement channels in ultrahigh power density (~ 1021 W/cm3) plasmas, PNAS 95, 7854-7859 (1998).


  29. Evidence of enhanced multiphoton (248 nm) coupling from single-pulse energy measurements of Xe(L) emission induced from Xe clusters, J. Phys. B 30, L767-L775 (1997).


  30. Short-pulse amplification at 745 nm in Ti:sapphire with a continuously tunable regenerative amplifier, Appl. Opt. 36, 7752-7755 (1997).


  31. Wavelength dependence of multiphoton-induced Xe(M) and Xe(L) emissions from Xe clusters, J. Phys. B 30, 2707-2716(1997).


  32. High-brightness terawatt KrF* (248 nm) system, Appl. Phys. B 64, 643-646(1997).


  33. Measurement of 160-fs, 248-nm pulses by two-photon fluorescence in fused-silica crystals, Appl. Opt. 36, 3421-3424(1997).


  34. Production of ultrahigh power densities with channeled propagation at 248nm in underdense plasmas, Prog. Crystal Growth and Charact. 33, 217-223 (1996).


  35. Biomedical three-dimensional holographic microimaging at visible, ultraviolet and X-ray wavelengths, Nature Medicine 2, 939-941 (1996).


  36. Competition between multiphoton Xenon cluster excitation and plasma wave Raman scattering at 248 nm, J. Phys. B 29, L291-L297 (1996).


  37. Z-lambda imaging of Xe(M) and Xe(L) emissions from channelled propagation of intense femtosecond 248 nm pulses in a Xe cluster target, J. Phys. B 29, L113-L118 (1996).


  38. Intensity dependence of the multiphoton-induced Xe(L) spectrum produced by subpicosecond 248 nm excitation of Xe clusters, J. Phys. B 29, L43-L50 (1996).


  39. Dynamical orbital collapse drives super x-ray emission, J. Phys. B 29, 247-255(1996).


  40. Ultrahigh power compression for x-ray amplification: multiphoton cluster excitation combined with nonlinear channeled propagation, J. Phys. B 28, 2143-2158 (1995).


  41. Stability analysis of relativistic and charge-displacement self-channeling of intense laser-pulses in underdense plasmas, Plasma Phys. Control Fusion 37, 569-597 (1995).


  42. Stable self-channeling of intense ultraviolet pulses in underdense plasma, producing channels exceeding 100 rayleigh lengths, J. Opt. Soc. Am. B 11, 1941-1947 (1994).


  43. Superstrong coherent multielectron intense-field interaction, J. Phys. B 27, L633-L636 (1994).


  44. X-ray superradiance from multiphoton excited clusters, J. Phys. B 27, L637-L641 (1994).


  45. Evidence for coherent electron motions in multiphoton x-ray-production from Kr and Xe clusters, J. Phys. B 27, 4373-4389 (1994).


  46. Multielectron ejection of inner-shell electrons through multiphoton excitation of clusters, J. Phys. B 27, 4391-4400 (1994).


  47. Multiphoton-induced x-ray emission at 4-5 keV from Xe atoms with multiple core vacancies, Nature 370, 631-634 (1994).


  48. Multiphoton Induced X-Ray Emission from Kr clusters on M-Shell (~100 Angstroms) and L-Shell (~6 Angstroms) Transitions, Phys. Rev. Lett. 72, 1810-1813 (1994).


  49. Comparison of kinetic-energy distributions and ionic fragment yields of CO2 and N2O arising from coulomb explosions induced by multiphoton ionization and fast-ion impact, Phys. Rev. A 48, 1359-1363 (1993).


  50. High-brightness subpicosecond terawatt KrF* system driven with a frequency-converted self-mode-locked pulse-compressed Ti:Al2O3 laser, J. Opt. Soc. Am. B 10, 1180-1184 (1993).


  51. X-ray emission from a 650-fs laser-produced Barium plasma, Phys. Rev. E 47, 4349-4353 (1993).


  52. Fourier-transform holographic microscope, Appl. Opt. 31, 4973-4978(1992).


  53. Method of concentration of power in materials for x-ray amplification, Appl. Opt. 31, 3433-3437 (1992).


  54. Isotopic studies of atomic site selectivity in molecular multiphoton ionization of N2O, Phys. Rev. A 45, 6744-6747 (1992).


  55. Relativistic and charge-displacement self-channeling of intense ultrashort laser-pulses in plasmas, Phys. Rev. A 45, 5830-5845 (1992).


  56. Observation of Relativistic and Charge-Displacement Self-Channeling of Intense Subpicosecond Ultraviolet (248 nm) Radiation in Plasmas, Phys. Rev. Lett. 68, 2309-2312 (1992).


  57. Observation of density-enhanced dielectronic satellite spectra produced during subpicosecond laser-matter interactions, Phys. Rev. A 45, 1569-1574 (1992).


  58. Plasma production from ultraviolet-transmitting targets using subpicosecond ultraviolet-radiation, Opt. Lett. 16, 1261-1263 (1991).


  59. High-intensity generation of 9-13 Angstrom x-rays from BaF2 targets, Appl. Phys. Lett. 59, 777-778 (1991).


  60. Measurement of energy penetration depth of subpicosecond laser energy into solid density matter, Appl. Phys. Lett. 59, 534-536 (1991).


  61. Generation of coherent extreme-ultraviolet and infrared radiation using six-wave mixing in Argon, Phys. Rev. A 43, 371-375 (1991).


  62. High-Power Ultrafast Excimer Lasers, J. of Appl. Phys. 69, R1-R19 (1991).


  63. Stabilization of relativistic self-focusing of intense subpicosecond ultraviolet pulses in plasmas, Phys. Rev. Lett. 65, 1753-1756 (1990).


  64. Tunneling ionization in the multiphoton regime, Phys. Rev. A 41, 5049-5052(1990).


  65. Prospects for x-ray amplification with charge-displacement self-channeling, IEEE J. Quant. Electron. 25, 2423-2430(1989).


  66. Ultrahigh-intensity KrF* laser system, Opt. Lett. 14, 1113-1115 (1989).


  67. Observation of a new inner-orbital molecular-transition at 55.8-nm in N2(2)+ produced by multiphoton coupling, Phys. Rev. A 40, 2378-2384 (1989).


  68. Kinetic energy distributions of ionic fragments produced by subpicosecond multiphoton ionization of N-2, Phys. Rev. A 39, 1186-1192 (1989).


  69. Multiphoton dissociative ionization of molecular deuterium, Phys. Rev. A 38, 6180 (1988).


  70. Multiphoton ultraviolet spectroscopy of some 6p levels in krypton, Phys. Rev. A 21, 1453 (1980).


  71. Collisional and radiative properties of the H2E,F1Sig+ state, Phys. Rev. A 21, 607 (1980).


  72. Observation of two-photon excitation of the H2E,F1Sig+ state, Phys. Rev. Lett. 40, 309 (1978).


  73. Stimulated emission at 9.75 micrometers following two-photon excitation of fluoride, Appl. Phys. Lett. 32, 221 (1978).