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High power laser interaction with single and double layer targets

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Results of extended complementary experimental and computer simulation studies of craters formation produced by high power lasers in single and double layer targets are presented. The experimental investigation was carried out using the PALS (Prague Asterix Laser System) facility working with two different laser beam wavelengths: L(lambda)1 = 1.315 žm and L3 = 0.438 žm. Two types of targets made of Al were used: single massive targets and double targets consisting of foils or disks (6 and 11 žm thick for both cases) placed in front of the massive target at distances of 200 and 500 žm. The targets were illuminated by laser energies EL= 130, 240 and 390 J always focused with diameter of 250 žm. In all experiments performed the laser pulse duration was equal to 400 ps. The 3-frame interferometry was employed to investigate the plasma dynamics by means of the electron density distribution time development, as well as the disks and foil fragments velocity measurements. Dimensions and shapes of craters were obtained by crater replica technology and microscopy measurement. Experimental results were complemented by analytical theory and computer simulations to help their interpretation. This way the values of laser energy absorption coefficient, ablation loading efficiency and efficiency of energy transfer, as well as 2-D shock wave generation at the laser-driven macroparticle impact, were obtained from measured craters parameters for both wavelengths of laser radiation. Computer simulations allowed us to obtain an energy absorption balance of incident laser energy for both wavelengths employed.
Czasopismo
Rocznik
Strony
241--262
Opis fizyczny
Bibliogr. 19 poz., wykr.
Twórcy
autor
  • Institute of Plasma Physics and Laser Microfusion, Hery 23, 00-908 Warszawa, Poland
  • P.N. Lebedev Physical Institute of RAS, Leninsky 53, 119 991 Moscow, Russia
autor
  • P.N. Lebedev Physical Institute of RAS, Leninsky 53, 119 991 Moscow, Russia
autor
  • PALS Research Center, AS CR, Na Slovance 3, 182 21 Prague 8, Czech Republic
autor
  • Czech Technical University in Prague, FNSPE, Brehova 7, 115 19 Prague 1, Czech Republic
  • Institute of Plasma Physics and Laser Microfusion, Hery 23, 00-908 Warszawa, Poland
  • Troitsk Institute of Innovation and Thermonuclear Research, 142 190 Troitsk, Russia
autor
  • PALS Research Center, AS CR, Na Slovance 3, 182 21 Prague 8, Czech Republic
autor
  • PALS Research Center, AS CR, Na Slovance 3, 182 21 Prague 8, Czech Republic
autor
  • PALS Research Center, AS CR, Na Slovance 3, 182 21 Prague 8, Czech Republic
autor
  • PALS Research Center, AS CR, Na Slovance 3, 182 21 Prague 8, Czech Republic
autor
  • Warsaw University of Technology, ICS, Nowowiejska 15/19, 00-665 Warszawa, Poland
autor
  • Institute of Plasma Physics and Laser Microfusion, Hery 23, 00-908 Warszawa, Poland
autor
  • PALS Research Center, AS CR, Na Slovance 3, 182 21 Prague 8, Czech Republic
autor
  • PALS Research Center, AS CR, Na Slovance 3, 182 21 Prague 8, Czech Republic
autor
  • PALS Research Center, AS CR, Na Slovance 3, 182 21 Prague 8, Czech Republic
autor
  • PALS Research Center, AS CR, Na Slovance 3, 182 21 Prague 8, Czech Republic
  • PALS Research Center, AS CR, Na Slovance 3, 182 21 Prague 8, Czech Republic
Bibliografia
  • [1] EIDMANN K., AMIRANOFF F., FEDOSEJEVS R., MAASWINKEL A.G.M., PETSCH R., SIGEL R., SPINDLER G., TENG YUNG-LU, TSAKIRIS G., WITKOWSKI S., INTERACTION OF 1.3-PM LASER RADIATION WITH THIN FOIL TARGES, PHYSICAL REVIEW A: GENERAL PHYSICS 30(5), 1984, PP. 2568-89.
  • [2] GRUN J., OBENSCHAIN S.P., RIPIN B.H., WHITLOCK R.R., MCLEAN E.A., GARDNER J., HERBST M.J., STAMPER J.A., ABLATIVE ACCELERATION OF PLANAR TARGETS TO HIGH VELOCITIES, PHYSICS OF FLUIDS 26(2), 1983, PP. 588-97.
  • [3] RIPIN B.H., DECOSTE R., OBENSCHAIN S.P., BODNER S.E., MCLEAN E.A., YOUNG F.C., WHITLOCK R.R., ARMSTRONG C.M., GRUN J., STAMPER J.A., GOLD S.H., NAGEL D.J., LEHMBERG R.H., MCMAHON J.M., LASER-PLASMA INTERACTION AND ABLATIVE ACCELERATION OF THIN FOILS AT 1012-1015 W/CM2, PHYSICS OF FLUIDS 23(5), 1980, PP. 1012-30.
  • [4] PISARCZYK T., BORODZIUK S., KASPERCZUK A., JUNGWIRTH K., KRALIKOVA B., KROUSKY E., MASEK K., PFEIFER M., ROHLENA K., SKALA J., ULLSCHMIED J., KALAL M., LIMPOUCH J., PISARCZYK P., APPLICATION OF THE LASER SIMULATION METHOD OF CRATER CREATION IN THE LASER-AL SOLID TARGET EXPERIMENT ON THE PALS FACILITY, JOURNAL OF HIGH TEMPERATURE MATERIAL PROCESSES 7(3), 2003, PP. 319-26.
  • [5] BORODZIUK S., KASPERCZUK A., PISARCZYK T., ROHLENA K., ULLSCHMIED J., KALAL M., LIMPOUCH J., PISARCZYK P., APPLICATION OFLASER SIMULATION METHOD FOR THE ANALYSIS OFCRATER FORMATION EXPERIMENT ON PA^LSLASER, CZECHOSLOVAK JOURNAL OF PHYSICS 53(9), 2003, PP. 799-810.
  • [6] DOSKACH I., GUS'KOV S., JUNGWIRTH K., KALAL M., KASPERCZUK A., KRALIKOVA B., KROUSKY E., LIMPOUCH J., MASEK K., PFEIFER M., PISARCZYK T., ROHLENA K., ROZANOV V., SKALA J., ULLSCHMIED J., LASER-PRODUCED POST-PULSE CRATER FORMATION IN SOLIDS OBSERVED IN PALS FACILITY INTERACTION EXPERIMENT, PROCEEDINGS OF SPIE 5228, 2003, PP. 121-30.
  • [7] JUNGWIRTH K., CEJNAROVA A., JUHA L., KRALIKOVA B., KRASA J., KROUSKY E., KRUPICKOVA P., LASKA L., MASEK K., MOCEK T., PFEIFER M., PRAG A., RENNER O., ROHLENA K., RUS B., SKALA J., STRAKA P., ULLSCHMIED J., THE PRAGUE ASTERIXLASER SYSTEM PALS, PHYSICS OF PLASMAS 8(5), 2001, PP. 2495-501.
  • [8] KASPERCZUK A., PISARCZYK T., APPLICATION OF AUTOMATED INTERFEROMETRIC SYSTEM FOR INVESTIGATION OF THE BEHA VIOUR OF A LASER-PRODUCED PLASMA IN STRONG EXTERNAL MAGNETIC FIELD, OPTICA APPLICATA 31(3), 2001, PP. 571-97.
  • [9] KASPERCZUK A., MAKOWSKI J., PADUCH M., TOMASZEWSKI K., WERESZCZYNSKI Z., WOLOWSKI J., WYZGAL J., APPLICATION OF FAST THREE-FRAME INTERFEROMETRY TO INVESTIGATION OF LASER PLASMA, J. PROCEEDINGS OF SPIE 2202, 1993, PP. 449-52.
  • [10] PISARCZYK T., RUPASOV A.A., SARKISOV G.S., SHIKANOV A.S., FARADAY ROTATION METHOD FOR MAGNETIC FIELD DIAGNOSTIC IN A LASER PLASMA, JOURNAL OF SOVIET LASER RESEARCH 11(1), 1990, PP. 1-32.
  • [11] KALAL M., NUGENT K.A., ABEL INVERSION USING FAST FOURIER TRANSFORMS, APPLIED OPTICS 27(10), 1988, PP. 1956-9. GUS'KOV S.YU., BORODZIUK S., KASPERCZUK A., PISARCZYK T., KALAL M., KRALIKOVA B., KROUSKY E., LIMPOUCH J., MASEK K., PFEIFER M., ROHLENA K., SKALA J., ULLSCHMIED J., PISARCZYK P., SHOCK WAVE GENERATION AND CRATER FORMATION IN SOLIDS BY A SHORT LASER PULSE INTERACTION, QUANTUM ELECTRONICS 34(11), 2004, PP. 989-1003.
  • [12] BORODZIUK S., DOSKACH Y. A., GUS'KOV S.YU., JUNGWIRTH K., KALAL M., KASPERCZUK A., KRALIKOVA B., KROUSKY E., LIMPOUCH J., MASEK K., PFEIFER M., PISARCZYK P., PISARCZYK T., ROHLENA K., ROZANOV V.B., SKALA J., ULLSCHMIED J., EXPERIMENTAL AND THEORETICAL INVESTIGATIONS OFCRATERS FORMATION IN AN ALUMINUM TARGET IN A PALS EXPERIMENT, NUKLEONIKA 49(1), 2004, PP. 7-14.
  • [13] PISARCZYK T., BORODZIUK S., KASPERCZUK A., DEMCHENKO N.N., GUS'KOV S.YU., ROZANOV V.B., KALAL M., LIMPOUCH J., JUNGWIRTH K., KRALIKOVA B., KROUSKY E., MASEK K., PFEIFER M., ROHLENA K., SKALA J., ULLSCHMIED J., KONDRASHOV V.N., PISARCZYK P., EXPERIMENTAL AND THEORETICAL STUDIES OFTHE CRATER FORMA ON PROCESS ON PALS EXPERIMENTS, CZECHOSLOVAK JOURNAL OF PHYSICS 54(C), 2004, PP. 403-8.
  • [14] BORODZIUK S., KASPERCZUK A., PISARCZYK T., GUS'KOV S.YU., ULLSCHMIED J., KRALIKOVA B., ROHLENA K., SKALA J., KALAL M., PISARCZYK P., INVESTIGATION OF PLASMA ABLATION AND CRATER FORMATION PROCESSES IN THE PRAGUE ASTERIX LASER SYSTEM LASER FACILITY, OPTICA APPLICATA 34(1), 2004, PP. 31-42.
  • [15] KALAL M., LIMPOUCH J., BORODZIUK S., KASPERCZUK A., PISARCZYK T., DEMCHENKO N.N., GUS'KOV S.YU., ROZANOV V.B., ROHLENA K., SKALA J., ULLSCHMIED J., KONDRASHOV V.N., PISARCZYK P., INVESTIGATION OFTHE WAVELENGTH INHUENCE OF THE EFFICIENCY OF MACROPARTICLES ACCELERATION AN CRATERS CREATION IN THE PALS DOUBLE TARGETS EXPERIMENT, CZECHOSLOVAK JOURNAL OF PHYSICS 54(C), 2004, PP. 415-20.
  • [16] BORODZIUK S., KASPERCZUK A., PISARCZYK T., DEMCHENKO N.N., GUS'KOV S.YU., ROZANOV V.B., KALAL M., LIMPOUCH J., ULLSCHMIED J., KONDRASHOV V.N., PISARCZYK P., APPLICATION OF HE 3-FRAME INTERFEROMETRY AND THE CRATER REPLICA METHOD FOR INVESTIGATION OFLASER ACCELERATED MACROPARTICLES INTERACTING WITH MASSIVE TARGETS IN THE PALS EXPERIMENT, OPTICA APPLICATA 34(3), 2004, PP. 385-403.
  • [17] GUSKOV S.YU., DIRECT IGNITION BY THE DRIVERS OF DIFFERENT TYPES, PROCEEDINGS OF SPIE 5228, 2003, PP. 221-32.
  • [18] ISKAKOV A.B., DEMCHENKO N.N., LEBO I.G., ROZANOV V.B., TISHKIN V.F., 2D LAGRANGIAN CODE
  • [19] "ATLANT-HE" FOR SIMULATION OFPLASMA INTERACTION WITH ALLOWANCE FOR HOT ELECTRON GENERATION AND ANSPORT, PROCEEDINGS OF SPIE 5228, 2003, PP. 143-50
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BWA1-0012-0006
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