NATIONAL INSTITUTE for LASER, PLASMA and RADIATION PHYSICS
   Electron acceleration and polaritonic transport by laser-plasma interaction in new capillary configuration
CONTRACT 90/06.10.2011
PN-II-ID-PCE-2011-3-0958



Results

Novel capillary devices with internal surface tailoring and characterisation (to be published in collaboration with Strathclyde University –UK)

New preionized capillary discharges with  filamentary high intensity pulsed current (patent pending  in collaboration with Strathclyde University –UK)

New capillary dielectric trap for micro-particles  as targets in high intensity laser experiments (Patent  Application, OSIM/00646/2012)

Theory and numerical simulation using the differential equations and bifurcation theory. Ion in anharmonic Paul trap. Orbits, Poincare maps and bifurcation diagrams (B. Mihalcea et al, to be published)

New method of corona assisted ultra-adherent  dielectric thin layer deposition to ensure proper geometry of active surface of capillary  devices [A. Groza, A.Surmeian, C.Diplasu, C.Luculescu, P. Chapon, A.Tempez, M.Ganciu, Surface and Coatings Technology, 212, 145-151 (2012)]

Capilare
Capilare realizate prin fenomen de autofocalizare cu factor mare de aspect (a) si cu profil controlat de intrare (b)
Procesare cristal calcit
Procesarea unui cristal pe baza de calcit pentru realizarea unui capilar de 5 cm prin autocolimarea unui laser cu CO2 de 1 KW
Vedere 3D CETAL
Simulare 3D a instalatiei experimentale de la CETAL care cuprinde laserul de 1 PW, compresorul, linia de transport a fasciculului, oglinzile parabolice de focalizare si camera de reactie
Camera interactie
Camera de reactie, partea finala a liniei de transport a fasciculului laser si incinta oglinzii parabolice de focalizare cu distanta focala de 3,2 m






                                                                                                                                                                                          Last update: September, 2016