Search

Your search keyword '"Abel, E. Paige"' showing total 20 results
Start Over Author "Abel, E. Paige"
20 results on '"Abel, E. Paige"'

1. Branching Ratios for the Three Most Intense Gamma Rays in the Decay of $^{47}$Ca

Author

Abel, E. Paige, Kleinfeldt, Chloe, Kalman, Colton, and Severin, Gregory W.

Subjects
Nuclear Experiment
Abstract

A sample of $^{47}$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 1297.1 keV characteristic gamma-rays, respectively. Based on these updated branching ratios, the ground state to ground state $^{47}$Ca to $^{47}$Sc beta decay branching ratio has been indirectly measured as 17.7(5)% and the ground state to 1297.1 keV excited state as 82.2(5)%. These values represent a greatly increased precision for all five branching ratios compared to the currently accepted values. The measurements presented here were made relative to the ingrown $^{47}$Sc daughter in a $^{47}$Ca sample and the well-established 159.4 keV gamma-ray branching ratio and the half-life for the decay of $^{47}$Sc. These measurements were supported by verifying that the half-lives measured from characteristic gamma-ray peaks over multiple spectra for both $^{47}$Ca and $^{47}$Sc were consistent with previously reported values. Additionally, the half-lives of both $^{47}$Ca and $^{47}$Sc were independently measured with Liquid Scintillation Counting to reverify the previously reported values used in this study to find updated gamma-ray branching ratio values., Comment: 13 pages, 5 figures

Published
2020

3. Isotope Harvesting at FRIB: Additional opportunities for scientific discovery

Author

Abel, E. Paige, Avilov, Mikael, Ayres, Virginia, Birnbaum, Eva, Bollen, Georg, Bonito, Greg, Bredeweg, Todd, Clause, Hannah, Couture, Aaron, DeVore, Joe, Dietrich, Matt, Ellison, Paul, Engle, Jonathan, Ferrieri, Richard, Fitzsimmons, Jonathan, Friedman, Moshe, Georgobiani, Dali, Graves, Stephen, Greene, John, Lapi, Suzanne, Loveless, C. Shaun, Mantica, Paul, Mastren, Tara, Martinez-Gomez, Cecilia, McGuinness, Sean, Mittig, Wolfgang, Morrissey, David, Peaslee, Graham, Pellemoine, Frederique, Robertson, J. David, Scielzo, Nicholas, Scott, Matthew, Severin, Gregory, Shaughnessy, Dawn, Shusterman, Jennifer, Singh, Jaideep, Stoyer, Mark, Sutherlin, Logan, Visser, Ate, and Wilkinson, John

Subjects
Physics - Instrumentation and Detectors, Nuclear Experiment
Abstract

The Facility for Rare Isotope Beams (FRIB) at Michigan State University provides a unique opportunity to access some of the nation's most specialized scientific resources: radioisotopes. An excess of useful radioisotopes will be formed as FRIB fulfills its basic science mission of providing rare isotope beams. In order for the FRIB beams to reach high-purity, many of the isotopes are discarded and go unused. If harvested, the unused isotopes could enable cutting-edge research for diverse applications ranging from medical therapy and diagnosis to nuclear security. Given that FRIB will have the capability to create about 80 percent of all possible atomic nuclei, harvesting at FRIB will provide a fast path for access to a vast array of isotopes of interest in basic and applied science investigations. To fully realize this opportunity, infrastructure investment is required to enable harvesting and purification of otherwise unused isotopes. An investment in isotope harvesting at FRIB will provide the nation with a powerful resource for development of crucial isotope applications., Comment: 41 pages

Published
2018
Full Text
View/download PDF

11. Harvesting 88Zr from Heavy-Ion Beam Irradiated Tungsten at the National Superconducting Cyclotron Laboratory

Author

Satija, Samridhi, primary, Domnanich, Katharina A., additional, Bence, Jake A., additional, Vyas, Chirag K., additional, Abel, E. Paige, additional, Kleinfeldt, Chloe R., additional, Essenmacher, Scott D., additional, Kalman, Morgan, additional, Walker, Wesley, additional, Despotopulos, John D., additional, Scielzo, Nicholas D., additional, Shusterman, Jennifer A., additional, and Severin, Greg, additional

Published
2023
Full Text
View/download PDF

12. Aqueous harvesting ofZr88at a radioactive-ion-beam facility for cross-section measurements

Author

Shusterman, Jennifer A., primary, Scielzo, Nicholas D., additional, Abel, E. Paige, additional, Clause, Hannah K., additional, Dronchi, Nicolas D., additional, Frey, Wesley D., additional, Gharibyan, Narek, additional, Hart, Jason A., additional, Loveless, C. Shaun, additional, McGuinness, Sean R., additional, Sutherlin, Logan T., additional, Thomas, Keenan J., additional, Lapi, Suzanne E., additional, Robertson, J. David, additional, Stoyer, Mark A., additional, Norman, Eric B., additional, Peaslee, Graham F., additional, Severin, Gregory W., additional, and Shaughnessy, Dawn A., additional

Published
2021
Full Text
View/download PDF

14. Harvesting krypton isotopes from the off-gas of an irradiated water target to generate 76Br and 77Br.

Author

Clause, Hannah K., Domnanich, Katharina A., Kleinfeldt, Chloe, Kalman, Morgan, Walker, Wesley, Vyas, Chirag, Abel, E. Paige, and Severin, Gregory W.

Subjects
RADIOISOTOPES, ISOTOPES, KRYPTON, PARTICLES (Nuclear physics), MASS measurement, CYCLOTRONS
Abstract

A flowing-water target was irradiated with a 150 MeV/nucleon beam of 78Kr at the National Superconducting Cyclotron Laboratory to produce 77Kr and 76Kr. Real-time gamma-imaging measurements revealed the mass transport of the krypton radioisotopes through the target-water processing, or "isotope harvesting", system. The production rates were determined to be 2.7(1) × 10–4 nuclei of 76Kr and 1.18(6) × 10–2 nuclei of 77Kr formed per incident 78Kr ion. Utilizing an off-gas processing line as part of the isotope harvesting system, a total of 7.2(1) MBq of 76Kr and 19.1(6) MBq of 77Kr were collected in cold traps. Through the decay, the daughter radionuclides 76Br and 77Br were generated and removed from the traps with an average efficiency of 77 ± 12%. Due to the differences in half-lives of 76Kr and 77Kr, it was possible to isolate a pure sample of 76Br with 99.9% radionuclidic purity. The successful collection of krypton radioisotopes to generate 76Br and 77Br demonstrates the feasibility of gas-phase isotope harvesting from irradiated accelerator cooling-water. Larger-scale collections are planned for collecting by-product radionuclides from the Facility for Rare Isotope Beams. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

16. Isotope harvesting at FRIB: additional opportunities for scientific discovery

Author

Abel, E Paige, primary, Avilov, Mikael, additional, Ayres, Virginia, additional, Birnbaum, Eva, additional, Bollen, Georg, additional, Bonito, Greg, additional, Bredeweg, Todd, additional, Clause, Hannah, additional, Couture, Aaron, additional, DeVore, Joe, additional, Dietrich, Matt, additional, Ellison, Paul, additional, Engle, Jonathan, additional, Ferrieri, Richard, additional, Fitzsimmons, Jonathan, additional, Friedman, Moshe, additional, Georgobiani, Dali, additional, Graves, Stephen, additional, Greene, John, additional, Lapi, Suzanne, additional, Loveless, C Shaun, additional, Mastren, Tara, additional, Martinez-Gomez, Cecilia, additional, McGuinness, Sean, additional, Mittig, Wolfgang, additional, Morrissey, David, additional, Peaslee, Graham, additional, Pellemoine, Frederique, additional, Robertson, J David, additional, Scielzo, Nicholas, additional, Scott, Matthew, additional, Severin, Gregory, additional, Shaughnessy, Dawn, additional, Shusterman, Jennifer, additional, Singh, Jaideep, additional, Stoyer, Mark, additional, Sutherlin, Logan, additional, Visser, Ate, additional, and Wilkinson, John, additional

Published
2019
Full Text
View/download PDF

17. Harvesting 62Zn from an aqueous cocktail at the NSCL.

Author

Domnanich, Katharina A., Vyas, Chirag K., Abel, E. Paige, Kalman, Colton, Walker, Wesley, and Severin, Gregory W.

Subjects
RADIOACTIVE decay, NUCLEAR research, NUCLEAR science, HARVESTING, RADIOISOTOPES
Abstract

"Isotope harvesting" is a technique that offers access to exotic radionuclides created as by-products during nuclear science research. Ongoing exploratory work at the National Superconducting Cyclotron Laboratory (NSCL) is directed towards the production and extraction of rare radionuclides from a flowing-water target and intends to pave the way for future harvesting efforts at the upcoming Facility for Rare Isotope Beams (FRIB). Here we present the collection of 62Zn from an aqueous matrix irradiated with a 150 MeV per nucleon 78Kr beam, while synergistically capturing other gaseous reaction products. In addition to the production rate for 62Zn (9.08(30) × 10−5 62Zn per incoming 78Kr), the rates of formation for several other radionuclides were determined as well. The purification of 62Zn from a large number of co-produced radionuclides was performed by anion exchange chromatography, allowing the isolation of 80.5(5.2)% of the generated 62Zn. With the decay of 62Zn the radioactive daughter 62Cu is generated, and with the isolation of pure 62Cu eluate, the principle of a medical radionuclide generator could be demonstrated. To illustrate the applicability of the obtained 62Zn, the isolated product was used in free and DTPA-labelled form in a proof of principle plant uptake study with garden cress employing phosphor imaging for visualization. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

20. Production, Collection, and Purification of 47 Ca for the Generation of 47 Sc through Isotope Harvesting at the National Superconducting Cyclotron Laboratory.

Author

Abel EP, Domnanich K, Clause HK, Kalman C, Walker W, Shusterman JA, Greene J, Gott M, and Severin GW

Abstract

An experiment was performed at the National Superconducting Cyclotron Laboratory using a 140 MeV/nucleon 48 Ca beam and a flowing-water target to produce 47 Ca for the first time with this production route. A production rate of 0.020 ± 0.004 47 Ca nuclei per incoming beam particle was measured. An isotope harvesting system attached to the target was used to collect radioactive cationic products, including 47 Ca, from the water on a cation-exchange resin. The 47 Ca collected was purified using three separation methods optimized for this work: (1) DGA extraction chromatography resin with HNO 3 and HCl, (2) AG MP-50 cation-exchange resin with an increasing concentration gradient of HCl, and (3) AG MP-50 cation-exchange resin with a methanolic HCl gradient. These methods resulted in ≥99 ± 2% separation yield of 47 Ca with 100% radionuclidic purity within the limits of detection for HPGe measurements. Inductively coupled plasma-optical emission spectrometry (ICP-OES) was used to identify low levels of stable ions in the water of the isotope harvesting system during the irradiation and in the final purified solution of 47 Ca. For the first time, this experiment demonstrated the feasibility of the production, collection, and purification of 47 Ca through isotope harvesting for the generation of 47 Sc for nuclear medicine applications., Competing Interests: The authors declare no competing financial interest., (© 2020 American Chemical Society.)

Published
2020
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results