Enhancing the creation of elements in laser-assisted heavy-ion fusion reactions

N. Thomson; L. Moschini; Alexis Diaz Torres

doi:10.1103/myjj-z2j7

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Enhancing the creation of elements in laser-assisted heavy-ion fusion reactions

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Enhancing the creation of elements in laser-assisted heavy-ion fusion reactions

N. Thomson, L. Moschini and Alexis Diaz Torres

Physical Review C, Vol.112(1), pp.014604-1-014604-6

01/07/2025

DOI: https://doi.org/10.1103/myjj-z2j7

Abstract

Low & intermediate energy heavy-ion reactions

Nuclear fusion

Nuclear reactions

Low-energy fusion of heavy ions is a fascinating coupling-assisted quantum tunneling problem, whose understanding is crucial for advancing the synthesis of new elements and isotopes. Quantum dynamical coupled-channels calculations of laser-assisted 16O + 238U fusion are presented for both a central collision and the total fusion cross sections, suggesting that laser-nucleus interaction can enhance the average 16O + 238U fusion probability by 6-60% at sub-barrier energies using quasistatic laser fields of intensity 1027-1029 W cm-2 and photon's energy of 1 eV. Femtosecond laser pulses are shown to reduce this enhancement by many orders of magnitude.

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Title: Enhancing the creation of elements in laser-assisted heavy-ion fusion reactions
Creators: N. Thomson (Author) - Univ Surrey, Fac Engn & Phys Sci, Dept Phys, Guildford GU2 7XH, Surrey, England
L. Moschini (Author) - University of Surrey, School of Maths and Physics
Alexis Diaz Torres (Author) - University of Surrey, School of Maths and Physics
Publication Details: Physical Review C, Vol.112(1), pp.014604-1-014604-6
Publisher: American Physical Society
Number of pages: 6
Publication Date: 01/07/2025
Date accepted for publication: 23/06/2025
Grants: Quantum Dynamics: Element Creation in Dense Stellar Plasma - Leverhulme Trust RPG, RPG-2019-325, Leverhulme Trust (United Kingdom, London)
ST/W5078421/1, Science and Technology Facilities Council (United Kingdom, Swindon) - STFC
ST/Y000358/1, Science and Technology Facilities Council (United Kingdom, Swindon) - STFC
Grant note: This work was supported by the UK Science and Technology Facilities Council (STFC) under Grants No. ST/W5078421/1 and No. ST/Y000358/1, and by the Leverhulme Trust (UK) under Grant No. RPG-2019-325.
Identifiers: 991007266602346; WOS:001524282300004
Copyright: © 2025 American Physical Society. For the purpose of open access, the authors have applied a Creative Commons Attribution (CC BY) licence to any Author Accepted Manuscript version arising.
Academic Unit: School of Maths and Physics
Language: English
Resource Type: Journal article
Data Access Statement: The data that support the findings of this article are not publicly available. The data are available from the authors upon reasonable request.

Enhancing the creation of elements in laser-assisted heavy-ion fusion reactions

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