A new method of extracting the γ-ray intensities necessary to perform lifetime measurements using the differential decay curve method (DDCM) is presented in this work, the unresolved Doppler-shifted components method (UDCM). The UDCM allows for a DDCM analysis to be performed using a γ-ray transition for which the fully Doppler-shifted and degraded components are unresolvable in energy and so are detected as a single peak. This technique was used to measure the known lifetime of the yrast 21+ state in 50Mn with a depopulating transition that does not have resolvable fully Doppler-shifted and degraded components. The lifetime measured through applying the UDCM was consistent with the standard DDCM measurement of the 21+ state. Use of the UDCM allows for DDCM lifetime measurements to be made using transitions of smaller γ-ray energies, smaller recoil velocities and, in some cases, with a smaller uncertainty. In contrast to a standard DDCM analysis, a UDCM analysis is also independent of the widths of the fully Doppler-shifted and degraded components and as a result they do not need to be determined.
Description
Performing the differential decay curve method on γ-ray transitions with unresolved Doppler-shifted components - ScienceDirect
%0 Journal Article
%1 BARBER2020162965
%A Barber, L.
%A Cullen, D.M.
%A Giles, M.M.
%A Singh, B.S. Nara
%A Mallaburn, M.J.
%A Beckers, M.
%A Blazhev, A.
%A Braunroth, T.
%A Dewald, A.
%A Fransen, C.
%A Goldkuhle, A.
%A Jolie, J.
%A Mammes, F.
%A Müller-Gatermann, C.
%A Wölk, D.
%A Zell, K.O.
%D 2020
%J Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
%K blazhev dewald jolie myown new
%P 162965
%R https://doi.org/10.1016/j.nima.2019.162965
%T Performing the differential decay curve method on γ-ray transitions with unresolved Doppler-shifted components
%U http://www.sciencedirect.com/science/article/pii/S0168900219313567
%V 950
%X A new method of extracting the γ-ray intensities necessary to perform lifetime measurements using the differential decay curve method (DDCM) is presented in this work, the unresolved Doppler-shifted components method (UDCM). The UDCM allows for a DDCM analysis to be performed using a γ-ray transition for which the fully Doppler-shifted and degraded components are unresolvable in energy and so are detected as a single peak. This technique was used to measure the known lifetime of the yrast 21+ state in 50Mn with a depopulating transition that does not have resolvable fully Doppler-shifted and degraded components. The lifetime measured through applying the UDCM was consistent with the standard DDCM measurement of the 21+ state. Use of the UDCM allows for DDCM lifetime measurements to be made using transitions of smaller γ-ray energies, smaller recoil velocities and, in some cases, with a smaller uncertainty. In contrast to a standard DDCM analysis, a UDCM analysis is also independent of the widths of the fully Doppler-shifted and degraded components and as a result they do not need to be determined.
@article{BARBER2020162965,
abstract = {A new method of extracting the γ-ray intensities necessary to perform lifetime measurements using the differential decay curve method (DDCM) is presented in this work, the unresolved Doppler-shifted components method (UDCM). The UDCM allows for a DDCM analysis to be performed using a γ-ray transition for which the fully Doppler-shifted and degraded components are unresolvable in energy and so are detected as a single peak. This technique was used to measure the known lifetime of the yrast 21+ state in 50Mn with a depopulating transition that does not have resolvable fully Doppler-shifted and degraded components. The lifetime measured through applying the UDCM was consistent with the standard DDCM measurement of the 21+ state. Use of the UDCM allows for DDCM lifetime measurements to be made using transitions of smaller γ-ray energies, smaller recoil velocities and, in some cases, with a smaller uncertainty. In contrast to a standard DDCM analysis, a UDCM analysis is also independent of the widths of the fully Doppler-shifted and degraded components and as a result they do not need to be determined.},
added-at = {2019-10-22T15:46:11.000+0200},
author = {Barber, L. and Cullen, D.M. and Giles, M.M. and Singh, B.S. Nara and Mallaburn, M.J. and Beckers, M. and Blazhev, A. and Braunroth, T. and Dewald, A. and Fransen, C. and Goldkuhle, A. and Jolie, J. and Mammes, F. and Müller-Gatermann, C. and Wölk, D. and Zell, K.O.},
biburl = {https://www.bibsonomy.org/bibtex/25c30272faf61aaee9cfeaaa9630b1463/ikpcologne},
description = {Performing the differential decay curve method on γ-ray transitions with unresolved Doppler-shifted components - ScienceDirect},
doi = {https://doi.org/10.1016/j.nima.2019.162965},
interhash = {a6d277108bdf59cf6855cb1d70582856},
intrahash = {5c30272faf61aaee9cfeaaa9630b1463},
issn = {0168-9002},
journal = {Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment},
keywords = {blazhev dewald jolie myown new},
pages = 162965,
timestamp = {2020-01-13T16:11:06.000+0100},
title = {Performing the differential decay curve method on γ-ray transitions with unresolved Doppler-shifted components},
url = {http://www.sciencedirect.com/science/article/pii/S0168900219313567},
volume = 950,
year = 2020
}