Novel Tools for In-beam Proton–gamma Coincidence Spectroscopy Near N=Z
Hrabar, Yuliia LU
; Golubev, Pavel
LU
; Rudolph, Dirk
LU
; Sarmiento Pico, Luis
LU
; Müller-Gatermann, C.
; Reviol, W.
; Seweryniak, D.
; Wu, J.
; Albers, Helena M.
and Anderson, John T.
, et al.
(2025)
Zakopane Conference on Nuclear Physics
In Acta Physica Polonica B, Proceedings Supplement
18.
- Abstract
- A novel combination of two CD-shaped double-sided silicon strip
detectors (DSSD) with Gammasphere, Microball, Neutron Shell, and
Fragment Mass Analyzer has been exploited at the Argonne Tandem Linac
Accelerator System (ATLAS) facility at the Argonne National Laboratory
during an experimental campaign aiming to study proton-unbound states in
odd-Z, N<Z nuclei beyond 56Ni. The addition of the highly-pixelated DSSDs to the setup has improved its sensitivity and selectivity for in-beam proton–γ
coincidence spectroscopy. Proton tracking capabilities of the DSSD
system have been utilized for the first time to follow the beam-spot
location on the target, which refines the... (More) - A novel combination of two CD-shaped double-sided silicon strip
detectors (DSSD) with Gammasphere, Microball, Neutron Shell, and
Fragment Mass Analyzer has been exploited at the Argonne Tandem Linac
Accelerator System (ATLAS) facility at the Argonne National Laboratory
during an experimental campaign aiming to study proton-unbound states in
odd-Z, N<Z nuclei beyond 56Ni. The addition of the highly-pixelated DSSDs to the setup has improved its sensitivity and selectivity for in-beam proton–γ
coincidence spectroscopy. Proton tracking capabilities of the DSSD
system have been utilized for the first time to follow the beam-spot
location on the target, which refines the computation of recoil vectors
and thus proton-line energy resolution. Moreover, the high granularity
of the DSSD system made it sensitive to unambiguously distinguish
evaporated deuterons from evaporated protons. This enables unprecedented
deuteron–γ coincidence studies along the N=Z line. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/2ee0c28b-67a0-4ae2-b9cb-5bc27e79e17d
- author
- Hrabar, Yuliia
LU
; Golubev, Pavel
LU
; Rudolph, Dirk
LU
; Sarmiento Pico, Luis
LU
; Müller-Gatermann, C.
; Reviol, W.
; Seweryniak, D.
; Wu, J.
; Albers, Helena M.
and Anderson, John T.
, et al. (More)
- Hrabar, Yuliia
LU
; Golubev, Pavel
LU
; Rudolph, Dirk
LU
; Sarmiento Pico, Luis
LU
; Müller-Gatermann, C.
; Reviol, W.
; Seweryniak, D.
; Wu, J.
; Albers, Helena M.
; Anderson, John T.
; Bentley, M.A.
; Carpenter, M. P.
; Chiara, C. J.
; Copp, Patrick A.
; Cox, Daniel
LU
; Fahlander, Claes
LU
; Forsberg, Ulrika
LU
; Huang, Tianheng
; Jayatissa, H.
; Lauritsen, T.
; Pereira-Lopez, X.
; Stolze, S.
; Uthayakumaar, Sivahami
and Wilson, Gemma L.
(Less)
- organization
- publishing date
- 2025-04-10
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- Gamma-ray spectroscopy, Proton radioactivity, Pixelated silicon detectors, Fusion evaporation reactions, N=Z nuclei
- in
- Acta Physica Polonica B, Proceedings Supplement
- volume
- 18
- article number
- 2-A20
- pages
- 8 pages
- publisher
- Jagellonian University
- conference name
- Zakopane Conference on Nuclear Physics
- conference location
- Zakopane, Poland
- conference dates
- 2024-08-25 - 2024-09-01
- external identifiers
-
- scopus:105003731925
- ISSN
- 1899-2358
- DOI
- 10.5506/APhysPolBSupp.18.2-A20
- project
- Decay Modes of Exotic Nuclei
- Nuclear Structure at the Limits: Isotope-selective Spectroscopy
- language
- English
- LU publication?
- yes
- id
- 2ee0c28b-67a0-4ae2-b9cb-5bc27e79e17d
- date added to LUP
- 2025-04-13 20:03:13
- date last changed
- 2025-06-27 04:01:05
@article{2ee0c28b-67a0-4ae2-b9cb-5bc27e79e17d,
abstract = {{A novel combination of two CD-shaped double-sided silicon strip <br>
detectors (DSSD) with Gammasphere, Microball, Neutron Shell, and <br>
Fragment Mass Analyzer has been exploited at the Argonne Tandem Linac <br>
Accelerator System (ATLAS) facility at the Argonne National Laboratory <br>
during an experimental campaign aiming to study proton-unbound states in<br>
odd-<i>Z</i>, <i>N</i><<i>Z</i> nuclei beyond <sup>56</sup>Ni. The addition of the highly-pixelated DSSDs to the setup has improved its sensitivity and selectivity for in-beam proton–γ<br>
coincidence spectroscopy. Proton tracking capabilities of the DSSD <br>
system have been utilized for the first time to follow the beam-spot <br>
location on the target, which refines the computation of recoil vectors <br>
and thus proton-line energy resolution. Moreover, the high granularity <br>
of the DSSD system made it sensitive to unambiguously distinguish <br>
evaporated deuterons from evaporated protons. This enables unprecedented<br>
deuteron–γ coincidence studies along the <i>N</i>=<i>Z</i> line.}},
author = {{Hrabar, Yuliia and Golubev, Pavel and Rudolph, Dirk and Sarmiento Pico, Luis and Müller-Gatermann, C. and Reviol, W. and Seweryniak, D. and Wu, J. and Albers, Helena M. and Anderson, John T. and Bentley, M.A. and Carpenter, M. P. and Chiara, C. J. and Copp, Patrick A. and Cox, Daniel and Fahlander, Claes and Forsberg, Ulrika and Huang, Tianheng and Jayatissa, H. and Lauritsen, T. and Pereira-Lopez, X. and Stolze, S. and Uthayakumaar, Sivahami and Wilson, Gemma L.}},
issn = {{1899-2358}},
keywords = {{Gamma-ray spectroscopy; Proton radioactivity; Pixelated silicon detectors; Fusion evaporation reactions; N=Z nuclei}},
language = {{eng}},
month = {{04}},
publisher = {{Jagellonian University}},
series = {{Acta Physica Polonica B, Proceedings Supplement}},
title = {{Novel Tools for In-beam Proton–gamma Coincidence Spectroscopy Near <i>N</i>=<i>Z</i>}},
url = {{http://dx.doi.org/10.5506/APhysPolBSupp.18.2-A20}},
doi = {{10.5506/APhysPolBSupp.18.2-A20}},
volume = {{18}},
year = {{2025}},
}