Performing the diﬀerential decay curve method on γ-ray transitions with unresolved Doppler-shifted components

Liam Barber; David Cullen; Michael Giles; Nara Singh; Michael Mallaburn; M.  Beckers; A Blazhev; T Braunroth; A Dewald; C  Fransen; A  Goldkuhle; J  Jolie; F Mammes; C Muller-Gatermann; D Wolk; K O  Zell

doi:10.1016/j.nima.2019.162965

Performing the diﬀerential decay curve method on γ-ray transitions with unresolved Doppler-shifted components

Liam Barber, David Cullen, Michael Giles, Nara Singh, Michael Mallaburn, M. Beckers, A Blazhev, T Braunroth, A Dewald, C Fransen, A Goldkuhle, J Jolie, F Mammes, C Muller-Gatermann, D Wolk, K O Zell

Universitat zu Koln

Research output: Contribution to journal › Article › peer-review

Abstract

A new method of extracting the γ-ray intensities necessary to perform life-11
time 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 2+ 1 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 2+ 1 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.

Original language	English
Journal	Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment
Early online date	14 Oct 2019
DOIs	https://doi.org/10.1016/j.nima.2019.162965
Publication status	Published - 2019

Keywords

RDDS
DDCM
UDCM
Plunger
Nuclear-state lifetimes
Unresolved Doppler-shifted components

Access to Document

10.1016/j.nima.2019.162965

Cite this

Barber, L., Cullen, D., Giles, M., Singh, N., Mallaburn, M., Beckers, M., Blazhev, A., Braunroth, T., Dewald, A., Fransen, C., Goldkuhle, A., Jolie, J., Mammes, F., Muller-Gatermann, C., Wolk, D., & Zell, K. O. (2019). Performing the diﬀerential decay curve method on γ-ray transitions with unresolved Doppler-shifted components. Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment . https://doi.org/10.1016/j.nima.2019.162965

@article{678670e3acf84f6b9212f08abc0c2fb9,

title = "Performing the diﬀerential decay curve method on γ-ray transitions with unresolved Doppler-shifted components",

abstract = "A new method of extracting the γ-ray intensities necessary to perform life-11time 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 2+ 1 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 2+ 1 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.",

keywords = "RDDS, DDCM, UDCM, Plunger, Nuclear-state lifetimes, Unresolved Doppler-shifted components",

author = "Liam Barber and David Cullen and Michael Giles and Nara Singh and Michael Mallaburn and M. Beckers and A Blazhev and T Braunroth and A Dewald and C Fransen and A Goldkuhle and J Jolie and F Mammes and C Muller-Gatermann and D Wolk and Zell, {K O}",

year = "2019",

doi = "10.1016/j.nima.2019.162965",

language = "English",

journal = "Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment ",

issn = "0168-9002",

publisher = "Elsevier BV",

}

Barber, L, Cullen, D, Giles, M, Singh, N, Mallaburn, M, Beckers, M, Blazhev, A, Braunroth, T, Dewald, A, Fransen, C, Goldkuhle, A, Jolie, J, Mammes, F, Muller-Gatermann, C, Wolk, D & Zell, KO 2019, 'Performing the diﬀerential decay curve method on γ-ray transitions with unresolved Doppler-shifted components', Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment . https://doi.org/10.1016/j.nima.2019.162965

Performing the diﬀerential decay curve method on γ-ray transitions with unresolved Doppler-shifted components. / Barber, Liam; Cullen, David; Giles, Michael et al.
In: Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment , 2019.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Performing the diﬀerential decay curve method on γ-ray transitions with unresolved Doppler-shifted components

AU - Barber, Liam

AU - Cullen, David

AU - Giles, Michael

AU - Singh, Nara

AU - Mallaburn, Michael

AU - Beckers, M.

AU - Blazhev, A

AU - Braunroth, T

AU - Dewald, A

AU - Fransen, C

AU - Goldkuhle, A

AU - Jolie, J

AU - Mammes, F

AU - Muller-Gatermann, C

AU - Wolk, D

AU - Zell, K O

PY - 2019

Y1 - 2019

N2 - A new method of extracting the γ-ray intensities necessary to perform life-11time 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 2+ 1 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 2+ 1 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.

AB - A new method of extracting the γ-ray intensities necessary to perform life-11time 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 2+ 1 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 2+ 1 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.

KW - RDDS

KW - DDCM

KW - UDCM

KW - Plunger

KW - Nuclear-state lifetimes

KW - Unresolved Doppler-shifted components

U2 - 10.1016/j.nima.2019.162965

DO - 10.1016/j.nima.2019.162965

M3 - Article

SN - 0168-9002

JO - Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment

JF - Nuclear Instruments & Methods in Physics Research. Section A: Accelerators, Spectrometers, Detectors, and Associated Equipment

ER -

Performing the diﬀerential decay curve method on γ-ray transitions with unresolved Doppler-shifted components

Abstract

Keywords

Access to Document

Fingerprint

Cite this