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Author Kis, Daniel ♦ Kalman, Peter ♦ Keszthelyi, Tamas
Source United States Department of Energy Office of Scientific and Technical Information
Content type Text
Language English
Subject Keyword NUCLEAR PHYSICS AND RADIATION PHYSICS ♦ -TRANSITIONS ♦ ELECTRONS ♦ EV RANGE ♦ INTERNAL CONVERSION ♦ ISOMERIC NUCLEI ♦ K SHELL ♦ KEV RANGE ♦ N SHELL ♦ NIOBIUM 90 ♦ PHOTON-ATOM COLLISIONS ♦ PULSES ♦ RHENIUM 188 ♦ SILVER 107 ♦ TUNGSTEN 183 ♦ ULTRAVIOLET RADIATION ♦ URANIUM 235 ♦ ACTINIDE NUCLEI ♦ ALPHA DECAY RADIOISOTOPES ♦ ATOM COLLISIONS ♦ BETA DECAY RADIOISOTOPES ♦ BETA-MINUS DECAY RADIOISOTOPES ♦ BETA-PLUS DECAY RADIOISOTOPES ♦ COLLISIONS ♦ CONVERSION ♦ DECAY ♦ ELECTROMAGNETIC RADIATION ♦ ELECTRON CAPTURE RADIOISOTOPES ♦ ELECTRONIC STRUCTURE ♦ ELEMENTARY PARTICLES ♦ ENERGY RANGE ♦ ENERGY-LEVEL TRANSITIONS ♦ EVEN-ODD NUCLEI ♦ FERMIONS ♦ HEAVY NUCLEI ♦ HOURS LIVING RADIOISOTOPES ♦ INTERMEDIATE MASS NUCLEI ♦ INTERNAL CONVERSION RADIOISOTOPES ♦ ISOMERIC TRANSITION ISOTOPES ♦ ISOTOPES ♦ LEPTONS ♦ MINUTES LIVING RADIOISOTOPES ♦ MULTIPOLE TRANSITIONS ♦ NIOBIUM ISOTOPES ♦ NUCLEAR DECAY ♦ NUCLEI ♦ ODD-EVEN NUCLEI ♦ ODD-ODD NUCLEI ♦ PHOTON COLLISIONS ♦ RADIATIONS ♦ RADIOISOTOPES ♦ RHENIUM ISOTOPES ♦ SECONDS LIVING RADIOISOTOPES ♦ SILVER ISOTOPES ♦ SPONTANEOUS FISSION RADIOISOTOPES ♦ STABLE ISOTOPES ♦ TUNGSTEN ISOTOPES ♦ URANIUM ISOTOPES ♦ YEARS LIVING RADIOISOTOPES
Abstract The internal conversion coefficient for bound-free electron transition of originally energetically forbidden internal conversion processes induced by intense, few-cycle UV laser pulse of Gaussian shape in the case of isomers {sup 107}Ag{sup m} (K shell, E3, 25.47 keV), {sup 90}Nb{sup m} (L{sub 2} shell, M2+E3, 2.3 keV), {sup 183}W{sup m1}(M{sub 5} shell, E2, 1.79 keV), {sup 183}W{sup m2} (N{sub 1} shell, E1, 548 eV), and {sup 188}Re{sup m} (M{sub 2} shell, M3+E4, 2.63 keV), and {sup 235}U{sup m} (O{sub 4} and O{sub 5} shells, E3, 73.5 eV) is determined numerically. Experimental conditions and possibilities of the laser-induced internal conversion process of {sup 183}W{sup m2} from the N{sub 1} shell are discussed in more detail.
ISSN 10502947
Educational Use Research
Learning Resource Type Article
Publisher Date 2010-08-15
Publisher Place United States
Journal Physical Review. A
Volume Number 82
Issue Number 2


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