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Please use this identifier to cite or link to this item: http://eprint.iitd.ac.in/handle/2074/2241

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dc.contributor.authorViswakarma, Nitikant-
dc.contributor.authorSharma, A K-
dc.identifier.citationPlasma Science, ICOPS IEEE Conference Record - Abstracts The 31st IEEE, International Conference on, 442p.en
dc.description.abstractSummary form only given. A high intensity laser pulse propagates through the H2-gas filled capillary discharge waveguide with parabolic radial electron density profile. The capillary comprises of alumina tube. Laser causes rapid tunnel ionization of aluminium (ionization potential /spl sim/5.986 V) and oxygen (ionization potential /spl sim/13.6 V) introduced into the plasma from the capillary wall. The increasing plasma density leads to a decreasing refractive index, modulating the phase of the laser as it propagates and causing frequency upshift of the laser.en
dc.format.extent4497 bytes-
dc.subjectparabolic radial electronen
dc.subjectalumina tubeen
dc.subjectcapillary wallen
dc.titleFrequency up shift of a high intense laser pulse in a gas filled capillary plasmaen
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