Differential cross sections for ${{^{12}\mathrm{C}(n,\alpha_{0})}}$, ${{^{16}\mathrm{O}(n,\alpha_{0})}}$ and ${{^{16}\mathrm{O}(n,\alpha_{1,2,3})}}$ between ${{E_n}}$ = 7.2 and 10 MeV with an active-target Time Projection Chamber

J. Bishop; C.E. Parker; R. Smith; Tz. Kokalova; G.V. Rogachev; C. Wheldon; S. Ahn; E. Koshchiy; K. Brandenburg; C.R. Brune; R.J. Charity; J. Derkin; N. Dronchi; G. Hamad; Y. Jones-Alberty; T.N. Massey; Z. Meisel; E.V. Ohstrom; S.N. Paneru; E.C. Pollacco; M. Saxena; N. Singh; L.G. Sobotka; D. Soltesz; S.K. Subedi; A.V. Voinov; J. Warren

arXiv:2601.02841·nucl-ex·January 7, 2026

Differential cross sections for ${{^{12}\mathrm{C}(n,\alpha_{0})}}$, ${{^{16}\mathrm{O}(n,\alpha_{0})}}$ and ${{^{16}\mathrm{O}(n,\alpha_{1,2,3})}}$ between ${{E_n}}$ = 7.2 and 10 MeV with an active-target Time Projection Chamber

J. Bishop, C.E. Parker, R. Smith, Tz. Kokalova, G.V. Rogachev, C. Wheldon, S. Ahn, E. Koshchiy, K. Brandenburg, C.R. Brune, R.J. Charity, J. Derkin, N. Dronchi, G. Hamad, Y. Jones-Alberty, T.N. Massey, Z. Meisel, E.V. Ohstrom, S.N. Paneru, E.C. Pollacco, M. Saxena, N. Singh

PDF

Open Access

TL;DR

This study measures differential cross sections for specific neutron-induced alpha reactions on carbon-12 and oxygen-16 using an active-target Time Projection Chamber, providing new data that challenge existing evaluations and demonstrate the method's effectiveness.

Contribution

First use of an active-target TPC for neutron-induced reaction measurements, offering broad angular coverage and high-quality differential cross section data.

Findings

01

Good agreement with previous results at overlapping energies and angles

02

Broader angular coverage reveals deviations from ENDF evaluations

03

Demonstrates the effectiveness of active-target TPC in nuclear reaction measurements

Abstract

Data for the $^{12} C (n, α_{0})$ , $^{16} O (n, α_{0})$ and $^{16} O (n, α_{1, 2, 3})$ differential cross sections are important for several different areas of nuclear physics such as understanding neutron transmutation in nuclear reactors. The TexAT Time Projection Chamber was used to measure the differential and angle-integrated cross sections in active-target mode. The chamber was filled with CO $_{2}$ gas and used a quasi-monoenergetic neutron beam from the $d (d, n)$ reaction at Edwards Accelerator Lab at Ohio University. A comparison between our current and previous results at overlapping energies and angles which showed good agreement in angular dependence and absolute cross section. A broader angular coverage than previous results demonstrated that the integrated cross section for the \po16 reaction deviates from ENDFVIII.0 evaluations.…

Peer Reviews

No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.

Videos

No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.

Taxonomy

TopicsNuclear physics research studies · Nuclear reactor physics and engineering · Nuclear Physics and Applications