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AbstractAbstract
[en] By means of the Moessbauer effect on 57Fe the authors have studied the relaxation mechanism of the highly-excited complex [Fe(phen)3]2+. They have obtained the initial populations of the two excited high-spin states and the low-spin ground state of the Fe2+ and Fe3+ ions at 10 K, 40 K, and 80 K which were populated in the EC decay of 57Co. (HSI)
Original Title
Angeregte Elektronenzustaende nach dem 57Co(EC)57Fe-Kernzerfall
Source
1988; 10 p; CONTRACT BMFT 03B21DO4
Record Type
Miscellaneous
Literature Type
Numerical Data
Report Number
Country of publication
ABSORPTION SPECTRA, COBALT 57, CRYSTAL FIELD, ELECTRIC FIELDS, ELECTRON CAPTURE DECAY, ELECTRONIC STRUCTURE, EXPERIMENTAL DATA, GROUND STATES, HIGH SPIN STATES, IRON 57, IRON COMPLEXES, MOESSBAUER EFFECT, OCCUPATION NUMBER, ORGANOMETALLIC COMPOUNDS, ROTATIONAL STATES, TEMPERATURE DEPENDENCE, ULTRALOW TEMPERATURE, VERY LOW TEMPERATURE
BETA DECAY, BETA DECAY RADIOISOTOPES, COBALT ISOTOPES, COMPLEXES, DATA, DAYS LIVING RADIOISOTOPES, DECAY, ELECTRON CAPTURE RADIOISOTOPES, ENERGY LEVELS, EVEN-ODD NUCLEI, EXCITED STATES, INFORMATION, INTERMEDIATE MASS NUCLEI, IRON ISOTOPES, ISOTOPES, NUCLEAR DECAY, NUCLEI, NUMERICAL DATA, ODD-EVEN NUCLEI, ORGANIC COMPOUNDS, RADIOISOTOPES, SPECTRA, STABLE ISOTOPES, TRANSITION ELEMENT COMPLEXES
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