Original title:
Modelling of pinching capillary discharge in Nitrogen for X-ray laser dumping (l‘ Aquila experiment).
Translated title:
Modelování pinčujícího kapilárního výboje v dusíku pro rekombinační x-laser
Authors:
Vrba, Pavel ; Vrbová, M. Document type: Research reports
Year:
2005
Language:
eng Series:
Research Report, volume: 0805 Abstract:
[eng][cze] Computer simulations reported here were done in the frame of collaboration among Czech Technical University in Prague, Institute of Plasma Physics AS CR and Italian University of l’Aquilla as a preparation of autumn 2005 experiment in l’Aquilla laboratory. Presuming that the current quarter cycle t1 = 87.5 ns is invariant, we have come to the conclusion that a measurable gain factor may achieved only if the peak value of the current Imax is approaching to the value of 43 kA and if it is used a capillary, with diameter 2R0 approximately equal to 6 mm. More efficient laser pumping is expected with a shorter quarter cycle as it was presented in [1]. Validity of our model may be checked even with a thinner capillary currently used and lower values current amplitudes on the basis of comparison of the pinch time delays and spectra measured and calculated.Byly provedeny simulační výpočty společného česko-italského experimentu KE CVUT, UFP AVČR a University v l’Aquille. Za předpokladu, že čtvrt perioda t1 = 87.5 ns proudového pulsu je neměná bylo spočteno, že maximálního zisku lze dosáhnout jestliže hodnota proudu Imax= 43 kA pro kapiláru o průměr 2R0 = 6 mm.Efektivnějšího laserového pumpování lze očekávat pro kratší čvrt periodu. Platnost našeho modelu byla kontrolována pro tenší kapiláry a menší hodnoty proudu, přitom byly porovnávány údobí trvání pinče a emitovaná spektra .
Keywords:
MHD simulations of Z-pinch; Recombination Pumping; X-Ray laser Project no.: 1P04LA235 (CEP) Funding provider: GA MŠk
Institution: Institute of Plasma Physics AS ČR
(web)
Document availability information: Fulltext is available at the institute of the Academy of Sciences. Original record: http://hdl.handle.net/11104/0131887