Gregory W Severin
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Explore the profile of Gregory W Severin including associated specialties, affiliations and a list of published articles.
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30
Citations
465
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Recent Articles
1.
Satija S, Domnanich K, Sumithrarachchi C, Liu Y, Cingoranelli S, Saini S, et al.
Appl Radiat Isot
. 2024 Jun;
211:111382.
PMID: 38843622
Beryllium-7 (Be) was created by proton irradiation of natural (B) and enriched (B) boron targets. The targets were dissolved in nitric acid, and the Be was separated from the bulk...
2.
Domnanich K, Satija S, Bodnar V, Bollen G, Kleinfeldt C, Liu Y, et al.
Appl Radiat Isot
. 2023 Jul;
200:110958.
PMID: 37506481
At the Facility for Rare Isotope Beams (FRIB), an oven-ion source combination was used to create rare isotope beams in support of the stand-alone user beam program of the ReAccelerator...
3.
Essenmacher S, Kleinfeldt C, Domnanich K, Bodnar V, Vyas C, Severin G
Appl Radiat Isot
. 2023 Jun;
199:110855.
PMID: 37302300
The quest to improve the quality of nuclear data, such as half-lives, transition yields, and reaction cross-sections, is a shared endeavor among various areas of nuclear science. V is a...
4.
Satija S, Domnanich K, Bence J, Vyas C, Abel E, Kleinfeldt C, et al.
Appl Radiat Isot
. 2023 May;
197:110831.
PMID: 37130469
Tungsten is a commonly used material at many heavy-ion beam facilities, and it often becomes activated due to interactions with a beam. Many of the activation products are useful in...
5.
Bence J, Satija S, Domnanich K, Despotopulos J, Abel E, Clause H, et al.
Appl Radiat Isot
. 2022 Sep;
189:110414.
PMID: 36095995
During routine operation of the Facility for Rare Isotope Beams (FRIB), radionuclides will accumulate in both the aqueous beam dump and along the beamline in the process of beam purification....
6.
Domnanich K, Severin G
ACS Omega
. 2022 Aug;
7(29):25860-25873.
PMID: 35910120
At the Facility for Rare Isotope Beams (FRIB), interactions between heavy-ion beams and beam-dump water will create a wide variety of radionuclides which can be accessed by a technique known...
7.
Clause H, Domnanich K, Kleinfeldt C, Kalman M, Walker W, Vyas C, et al.
Sci Rep
. 2022 Jan;
12(1):1433.
PMID: 35082335
A flowing-water target was irradiated with a 150 MeV/nucleon beam of Kr at the National Superconducting Cyclotron Laboratory to produce Kr and Kr. Real-time gamma-imaging measurements revealed the mass transport...
8.
Abel E, Kleinfeldt C, Kalman M, Severin G
Appl Radiat Isot
. 2021 Nov;
179:109994.
PMID: 34775271
A sample of Ca produced through isotope harvesting at the National Superconducting Cyclotron Laboratory was used to measure branching ratios of 7.17(5)%, 7.11(5)%, and 75.0(5)% for the 489.2, 807.9, and...
9.
Abel E, Domnanich K, Clause H, Kalman C, Walker W, Shusterman J, et al.
ACS Omega
. 2020 Nov;
5(43):27864-27872.
PMID: 33163769
An experiment was performed at the National Superconducting Cyclotron Laboratory using a 140 MeV/nucleon Ca beam and a flowing-water target to produce Ca for the first time with this production...
10.
Abel E, Clause H, Severin G
Appl Radiat Isot
. 2020 Mar;
158:109049.
PMID: 32174374
A flowing-water target was irradiated with a 140 MeV/u, 8 nA 40Ca20+ beam to test the feasibility of isotope harvesting at the upcoming Facility for Rare Isotope Beams. Among other...