Development of the (d; n) proton-Transfer reaction in inverse kinematics for structure studies

K. L. Jones; C. Thornsberry; J. Allen; A. Atencio; D. W. Bardayan; D. Blankstein; S. Burcher; A. B. Carter; K. A. Chipps; J. A. Cizewski; I. Cox; Z. Elledge; M. Febbraro; A. Fijałkowska; R. Grzywacz; M. R. Hall; T. T. King; A. Lepailleur; M. Madurga; S. T. Marley; P. D. O'malley; S. V. Paulauskas; S. D. Pain; W. A. Peters; C. Reingold; K. Smith; S. Taylor; W. Tan; M. Vostinar; D. Walter

doi:10.5506/APhysPolB.49.365

Development of the (d; n) proton-Transfer reaction in inverse kinematics for structure studies

K. L. Jones, C. Thornsberry, J. Allen, A. Atencio, D. W. Bardayan, D. Blankstein, S. Burcher, A. B. Carter, K. A. Chipps, J. A. Cizewski, I. Cox, Z. Elledge, M. Febbraro, A. Fijałkowska, R. Grzywacz, M. R. Hall, T. T. King, A. Lepailleur, M. Madurga, S. T. MarleyP. D. O'malley, S. V. Paulauskas, S. D. Pain, W. A. Peters, C. Reingold, K. Smith, S. Taylor, W. Tan, M. Vostinar, D. Walter

Nuclear Structure and Nuclear Astrophysi

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

Abstract

Transfer reactions have provided exciting opportunities to study the structure of exotic nuclei and are often used to inform studies relating to nucleosynthesis and applications. In order to benefit from these reactions and their application to rare ion beams (RIBs), it is necessary to develop the tools and techniques to perform and analyze the data from reactions performed in inverse kinematics, that is with targets of light nuclei and heavier beams. We are continuing to expand the transfer reaction toolbox in preparation for the next generation of facilities, such as the Facility for Rare Ion Beams (FRIB), which is scheduled for completion in 2022. An important step in this process is to perform the (d; n) reaction in inverse kinematics, with analyses that include Q-value spectra and differential cross sections. In this way, proton-Transfer reactions can be placed on the same level as the more commonly used neutron-Transfer reactions, such as (d; p), (9Be,8Be), and (¹³C,¹²C). Here, we present an overview of the techniques used in (d; p) and (d; n), and some recent data from (d; n) reactions in inverse kinematics using stable beams of ¹²C and ¹⁶O.

Original language	English
Pages (from-to)	365-372
Number of pages	8
Journal	Acta Physica Polonica B
Volume	49
Issue number	3
DOIs	https://doi.org/10.5506/APhysPolB.49.365
State	Published - Mar 2018

Funding

This research was supported in part by the U.S. Department of Energy, Office of Science, Office of Nuclear Physics under contract No. DE-FG02-96ER40963 (UT), DE-AC05-00OR22725 (ORNL), by the National Science Foundation under contract No. PHY1713857 (ND), PHY0354870 and PHY 1404218 (Rutgers). This research was sponsored in part by the National Nuclear Security Administration under the Stewardship Science Academic Alliance program through DOE Cooperative Agreement No. DE-NA0002132 (Rutgers and UTK). S.T.M. would like to acknowledge funding from the Louisiana State University Department of Physics and Astronomy.

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Jones, K. L., Thornsberry, C., Allen, J., Atencio, A., Bardayan, D. W., Blankstein, D., Burcher, S., Carter, A. B., Chipps, K. A., Cizewski, J. A., Cox, I., Elledge, Z., Febbraro, M., Fijałkowska, A., Grzywacz, R., Hall, M. R., King, T. T., Lepailleur, A., Madurga, M., ... Walter, D. (2018). Development of the (d; n) proton-Transfer reaction in inverse kinematics for structure studies. Acta Physica Polonica B, 49(3), 365-372. https://doi.org/10.5506/APhysPolB.49.365

@article{11ba5f3ad19245e18bb90719e8ae8c5c,

title = "Development of the (d; n) proton-Transfer reaction in inverse kinematics for structure studies",

abstract = "Transfer reactions have provided exciting opportunities to study the structure of exotic nuclei and are often used to inform studies relating to nucleosynthesis and applications. In order to benefit from these reactions and their application to rare ion beams (RIBs), it is necessary to develop the tools and techniques to perform and analyze the data from reactions performed in inverse kinematics, that is with targets of light nuclei and heavier beams. We are continuing to expand the transfer reaction toolbox in preparation for the next generation of facilities, such as the Facility for Rare Ion Beams (FRIB), which is scheduled for completion in 2022. An important step in this process is to perform the (d; n) reaction in inverse kinematics, with analyses that include Q-value spectra and differential cross sections. In this way, proton-Transfer reactions can be placed on the same level as the more commonly used neutron-Transfer reactions, such as (d; p), (9Be,8Be), and (13C,12C). Here, we present an overview of the techniques used in (d; p) and (d; n), and some recent data from (d; n) reactions in inverse kinematics using stable beams of 12C and 16O.",

author = "Jones, {K. L.} and C. Thornsberry and J. Allen and A. Atencio and Bardayan, {D. W.} and D. Blankstein and S. Burcher and Carter, {A. B.} and Chipps, {K. A.} and Cizewski, {J. A.} and I. Cox and Z. Elledge and M. Febbraro and A. Fija{\l}kowska and R. Grzywacz and Hall, {M. R.} and King, {T. T.} and A. Lepailleur and M. Madurga and Marley, {S. T.} and O'malley, {P. D.} and Paulauskas, {S. V.} and Pain, {S. D.} and Peters, {W. A.} and C. Reingold and K. Smith and S. Taylor and W. Tan and M. Vostinar and D. Walter",

year = "2018",

month = mar,

doi = "10.5506/APhysPolB.49.365",

language = "English",

volume = "49",

pages = "365--372",

journal = "Acta Physica Polonica B",

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Jones, KL, Thornsberry, C, Allen, J, Atencio, A, Bardayan, DW, Blankstein, D, Burcher, S, Carter, AB, Chipps, KA, Cizewski, JA, Cox, I, Elledge, Z, Febbraro, M, Fijałkowska, A, Grzywacz, R, Hall, MR, King, TT, Lepailleur, A, Madurga, M, Marley, ST, O'malley, PD, Paulauskas, SV, Pain, SD, Peters, WA, Reingold, C, Smith, K, Taylor, S, Tan, W, Vostinar, M & Walter, D 2018, 'Development of the (d; n) proton-Transfer reaction in inverse kinematics for structure studies', Acta Physica Polonica B, vol. 49, no. 3, pp. 365-372. https://doi.org/10.5506/APhysPolB.49.365

TY - JOUR

T1 - Development of the (d; n) proton-Transfer reaction in inverse kinematics for structure studies

AU - Jones, K. L.

AU - Thornsberry, C.

AU - Allen, J.

AU - Atencio, A.

AU - Bardayan, D. W.

AU - Blankstein, D.

AU - Burcher, S.

AU - Carter, A. B.

AU - Chipps, K. A.

AU - Cizewski, J. A.

AU - Cox, I.

AU - Elledge, Z.

AU - Febbraro, M.

AU - Fijałkowska, A.

AU - Grzywacz, R.

AU - Hall, M. R.

AU - King, T. T.

AU - Lepailleur, A.

AU - Madurga, M.

AU - Marley, S. T.

AU - O'malley, P. D.

AU - Paulauskas, S. V.

AU - Pain, S. D.

AU - Peters, W. A.

AU - Reingold, C.

AU - Smith, K.

AU - Taylor, S.

AU - Tan, W.

AU - Vostinar, M.

AU - Walter, D.

PY - 2018/3

Y1 - 2018/3

N2 - Transfer reactions have provided exciting opportunities to study the structure of exotic nuclei and are often used to inform studies relating to nucleosynthesis and applications. In order to benefit from these reactions and their application to rare ion beams (RIBs), it is necessary to develop the tools and techniques to perform and analyze the data from reactions performed in inverse kinematics, that is with targets of light nuclei and heavier beams. We are continuing to expand the transfer reaction toolbox in preparation for the next generation of facilities, such as the Facility for Rare Ion Beams (FRIB), which is scheduled for completion in 2022. An important step in this process is to perform the (d; n) reaction in inverse kinematics, with analyses that include Q-value spectra and differential cross sections. In this way, proton-Transfer reactions can be placed on the same level as the more commonly used neutron-Transfer reactions, such as (d; p), (9Be,8Be), and (13C,12C). Here, we present an overview of the techniques used in (d; p) and (d; n), and some recent data from (d; n) reactions in inverse kinematics using stable beams of 12C and 16O.

AB - Transfer reactions have provided exciting opportunities to study the structure of exotic nuclei and are often used to inform studies relating to nucleosynthesis and applications. In order to benefit from these reactions and their application to rare ion beams (RIBs), it is necessary to develop the tools and techniques to perform and analyze the data from reactions performed in inverse kinematics, that is with targets of light nuclei and heavier beams. We are continuing to expand the transfer reaction toolbox in preparation for the next generation of facilities, such as the Facility for Rare Ion Beams (FRIB), which is scheduled for completion in 2022. An important step in this process is to perform the (d; n) reaction in inverse kinematics, with analyses that include Q-value spectra and differential cross sections. In this way, proton-Transfer reactions can be placed on the same level as the more commonly used neutron-Transfer reactions, such as (d; p), (9Be,8Be), and (13C,12C). Here, we present an overview of the techniques used in (d; p) and (d; n), and some recent data from (d; n) reactions in inverse kinematics using stable beams of 12C and 16O.

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Development of the (d; n) proton-Transfer reaction in inverse kinematics for structure studies

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