Abstract
A recent proposal of accelerator based fusion reactor considers a scheme where an ion beam from the accelerator hits the target plasma on the resonance of the fusion reaction so that the reactivity (σv) can be an order of magnitude larger than that of a thermonuclear reactor. One of the important inputs is the stopping power which is needed to assess the energy loss of the beam in the plasma. In this work, we shall use the analytic formulation of Brown, Preston and Singleton [1] to calculate the temperature dependence of the stopping power due to the target t,He3, and B11 plasmas in the resonance regions of their respective fusion reactions, i.e., d+t→n+α,d+3He→p+α, and p+11B→3α. It is found that the calculated stopping power, especially when the quantum corrections are included, does not go down with temperature as fast at T−3/2. Instead it decreases slower, more like T−x with x≤1 in the range of T from ∼ 5 to 50 keV for d on t and He3 plasmas around their resonance energies.
Original language | English |
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Article number | 100032 |
Journal | Fundamental Plasma Physics |
Volume | 9 |
DOIs | |
State | Published - Apr 2024 |
Bibliographical note
Publisher Copyright:© 2023 The Author(s)
ASJC Scopus subject areas
- General Physics and Astronomy
- General
- General Mathematics