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Energy loss of heavy ions in a plasma target
165
Citations
14
References
1990
Year
EngineeringNuclear PhysicsFree-electron DensityPlasma SciencePlasma PhysicsPlasma TargetPlasma ElectronicsHeavy Ion PhysicPlasma TheoryPlasma SimulationIon BeamPlasma ConfinementIon EmissionPlasma DiagnosticsPhysicsApplied Plasma PhysicAtomic PhysicsLaboratory Plasma PhysicsNatural SciencesApplied PhysicsPlasma ApplicationEnergy Loss
Energy loss of heavy ions from $^{40}$Ca to $^{238}$U at 1.4 MeV/u was measured in a hydrogen plasma produced by a discharge tube at 1–2 eV, with diagnostics of electron density and temperature. The plasma target showed higher stopping power than neutral hydrogen due to increased energy transfer to free electrons and a higher effective projectile charge, and Bethe‑Bohr‑Bloch theory accurately predicted the results.
The energy loss in a plasma target was measured for different heavy-ion species, ranging from $^{40}\mathrm{Ca}$ to $^{238}\mathrm{U}$ at an energy of 1.4 MeV/u. A discharge tube was used to generate a hydrogen plasma with a high degree of ionization and temperatures between 1 and 2 eV. An on-line diagnostic of the plasma was performed to measure the free-electron density and the electron temperature. Compared to neutral hydrogen of the same particle density, the plasma target shows an enhanced stopping power due to the increased energy transfer to the free plasma electrons, and a higher effective charge of the projectiles inside the plasma target. Theoretical predictions based on the Bethe-Bohr-Bloch stopping theory are in good agreement with the experimental results.
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