Charged particle reactions from 7Li + p at 30 MeV

Dewins, D.W.; Bunch, S.M.; Forster, H.H.; Hokhikian, J.; Kim, C.C.

doi:10.1016/0375-9474(69)90465-5

Cited by 2 publications

(1 citation statement)

References 27 publications

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“…Profiles were normalized to their integral for better comparison. The similar proportions of secondary α produced by hadronic reactions of 7 Li and 8 Li with the target originate from the high cross-section of the Li(p, α)α reactions (Dewins et al 1969), which produces two α particles. In the case of 8 Li, GEANT4 predicts the production of a neutron in addition of these α particles.…”

Section: Fragmentation Of the Beammentioning

confidence: 98%

Short-lived radioactive ⁸Li and ⁸He ions for hadrontherapy: a simulation study

et al. 2023

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Purpose: Although hadrontherapy for cancer treatment has grown in popularity these past years, the use of protons and carbon ions for therapy remains debated compared to X-ray therapy. While a biological advantage of protons is not clearly demonstrated, therapy using carbon ions is often criticized for its high cost. Furthermore, the nuclear interactions undergone by carbons inside the patient are responsible for an additional dose delivered after the Bragg peak (BP). Therefore, a renewed interest in lighter ions with higher biological efficiency than protons was recently observed. In this context, helium and lithium ions represent a good compromise between protons and carbons, as they exhibit a higher LET than protons in the Bragg peak and can be accelerated by cyclotrons. The possibility of accelerating radioactive 8Li, decaying in 2 α-particles, and 8He, decaying in 8Li by β- decay, is particularly interesting. Method: This work aims to assess the pertinence of the use of 8Li and 8He ions for therapy by Monte Carlo simulations carried out with GEANT4. Results: It was calculated that the 8Li and 8He decay results in an increase of the LET of almost a factor 2 in the BP compared to stable 7Li and 4He. This also results in a higher dose deposited in the BP without an increase of the dose in the plateau region, and a lower dose after the BP due to fragmentation. It was also shown that both 8He and 8Li can have potential interest for prompt-gamma monitoring techniques. Finally, the feasibility of accelerating facilities delivering 8Li and 8He was also discussed. Conclusion: In this study, we demonstrate that both 8Li and 8He have interesting properties for therapy. Indeed, simulations predict that 8Li and 8He are a good compromise between proton and 12C, both in terms of LET and dose.

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Section: Fragmentation Of the Beammentioning

confidence: 98%

Short-lived radioactive ⁸Li and ⁸He ions for hadrontherapy: a simulation study

et al. 2023

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Neutron spectroscopic factors from transfer reactions

2007

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The present paper examines past measurements of the angular distributions for (d,p) and (p,d) reactions on targets with Z=3-24 leading to the ground states. The procedure is prescribed for extracting a conventional set of spectroscopic factors. Most of these spectroscopic factors agree well with large-basis shell model predictions. In all, the ground state neutron spectroscopic factors for 80 nuclei have been obtained. The consistency of the method is evaluated by comparing spectroscopic factors obtained separately in (p,d) and (d,p) reactions. The values correlate with Endt's compilation when available, but the current method is more general and the spectroscopic factor values obtained are more consistent with each other. 42 K 41 K(d,p) 42 K 12 NPA127(1969)343 0.71 0.81

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Charged particle reactions from 7Li + p at 30 MeV

Cited by 2 publications

References 27 publications

Short-lived radioactive ⁸Li and ⁸He ions for hadrontherapy: a simulation study

Short-lived radioactive ⁸Li and ⁸He ions for hadrontherapy: a simulation study

Neutron spectroscopic factors from transfer reactions

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Charged particle reactions from 7Li + p at 30 MeV

Cited by 2 publications

References 27 publications

Short-lived radioactive 8Li and 8He ions for hadrontherapy: a simulation study

Short-lived radioactive 8Li and 8He ions for hadrontherapy: a simulation study

Neutron spectroscopic factors from transfer reactions

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Short-lived radioactive ⁸Li and ⁸He ions for hadrontherapy: a simulation study

Short-lived radioactive ⁸Li and ⁸He ions for hadrontherapy: a simulation study