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Author Andreev, Stepan N. ♦ Rukhadze, Anri A. ♦ Tarakanov, V. P. ♦ Yakutov, B. P.
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS ♦ ACCELERATION ♦ COMPARATIVE EVALUATIONS ♦ ELECTROMAGNETIC PULSES ♦ EXPERIMENTAL DATA ♦ INCIDENCE ANGLE ♦ LASER RADIATION ♦ LASER TARGETS ♦ MYLAR ♦ PHOTONS ♦ PROTONS ♦ RADIATION EFFECTS ♦ SIMULATION ♦ THICKNESS ♦ BARYONS ♦ BOSONS ♦ DATA ♦ DIMENSIONS ♦ ELECTROMAGNETIC RADIATION ♦ ELEMENTARY PARTICLES ♦ ESTERS ♦ EVALUATION ♦ FERMIONS ♦ HADRONS ♦ INFORMATION ♦ MASSLESS PARTICLES ♦ MATERIALS ♦ NUCLEONS ♦ NUMERICAL DATA ♦ ORGANIC COMPOUNDS ♦ ORGANIC POLYMERS ♦ PETROCHEMICALS ♦ PETROLEUM PRODUCTS ♦ PLASTICS ♦ POLYESTERS ♦ POLYMERS ♦ PULSES ♦ RADIATIONS ♦ SYNTHETIC MATERIALS ♦ TARGETS
Abstract Acceleration of protons is simulated by the particle-in-cell (PIC) method upon irradiation of mylar targets of different thicknesses by femtosecond plane-polarised pulsed laser radiation and at different angles of radiation incidence on the target. The comparison of the results of calculations with the experimental data obtained in recent experiments shows their good agreement. The optimal angle of incidence (458) at which the proton energy achieves its absolute maximum is obtained. (effects of laser radiation on matter)
ISSN 10637818
Educational Use Research
Learning Resource Type Article
Publisher Date 2010-01-31
Publisher Place United States
Journal Quantum Electronics
Volume Number 40
Issue Number 1


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