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The Half Life of the 53 keV Level in {sup 197}Pt

Abstract

The half life of the recently proposed 53 keV level in {sup 197}Pt has been measured to 18.5 {+-} 1.5 nsec using the delayed coincidence technique. This level, which is identified with the f{sub 5/2} single particle state, decays directly to the p{sub 1/2} ground state in {sup 197}Pt. The reduced E2 transition probability for this 53 keV transition has been deduced and compared with the results obtained for the corresponding transitions in other Pt, Hg, and Pb isotopes and with the theoretical predictions by Sorensen and by Wahlborn and Martinson.
Authors:
Publication Date:
Feb 15, 1967
Product Type:
Technical Report
Report Number:
AE-266
Resource Relation:
Other Information: 11 refs., 2 figs.
Subject:
73 NUCLEAR PHYSICS AND RADIATION PHYSICS; HALF-LIFE; ENERGY LEVELS; PLATINUM 197; SINGLE-PARTICLE MODEL
OSTI ID:
20949457
Research Organizations:
AB Atomenergi, Nykoeping (Sweden)
Country of Origin:
Sweden
Language:
English
Other Identifying Numbers:
TRN: SE0708440
Availability:
Commercial reproduction prohibited; OSTI as DE20949457
Submitting Site:
SWDN
Size:
14 pages
Announcement Date:
Dec 17, 2007

Citation Formats

Malmskog, S G. The Half Life of the 53 keV Level in {sup 197}Pt. Sweden: N. p., 1967. Web.
Malmskog, S G. The Half Life of the 53 keV Level in {sup 197}Pt. Sweden.
Malmskog, S G. 1967. "The Half Life of the 53 keV Level in {sup 197}Pt." Sweden.
@misc{etde_20949457,
title = {The Half Life of the 53 keV Level in {sup 197}Pt}
author = {Malmskog, S G}
abstractNote = {The half life of the recently proposed 53 keV level in {sup 197}Pt has been measured to 18.5 {+-} 1.5 nsec using the delayed coincidence technique. This level, which is identified with the f{sub 5/2} single particle state, decays directly to the p{sub 1/2} ground state in {sup 197}Pt. The reduced E2 transition probability for this 53 keV transition has been deduced and compared with the results obtained for the corresponding transitions in other Pt, Hg, and Pb isotopes and with the theoretical predictions by Sorensen and by Wahlborn and Martinson.}
place = {Sweden}
year = {1967}
month = {Feb}
}