Fast-ion energy resolution by one-step reaction gamma-ray spectrometry

Authors :: Salewski, M.
Bergsåker, Henric
Bykov, Igor
Elevant, Thomas
Frassinetti, Lorenzo
Garcia Carrasco, Alvaro
Hellsten, Torbjörn
Ivanova, Darya
Jonsson, Thomas
Menmuir, Sheena
Petersson, Per
Rachlew, Elisabeth
Rubel, Marek
Ström, Petter
Tholerus, Simon
Weckmann, Armin
Zychor, I.
et al.
Salewski, M.
Bergsåker, Henric
Bykov, Igor
Elevant, Thomas
Frassinetti, Lorenzo
Garcia Carrasco, Alvaro
Hellsten, Torbjörn
Ivanova, Darya
Jonsson, Thomas
Menmuir, Sheena
Petersson, Per
Rachlew, Elisabeth
Rubel, Marek
Ström, Petter
Tholerus, Simon
Weckmann, Armin
Zychor, I.
et al.
Publication Year :: 2016
Abstract: The spectral broadening of gamma-rays from fusion plasmas can be measured in high-resolution gamma-ray spectrometry (GRS). We derive weight functions that determine the observable velocity space and quantify the velocity-space sensitivity of one-step reaction high-resolution GRS measurements in magnetized fusion plasmas. The weight functions suggest that GRS resolves the energies of fast ions directly without the need for tomographic inversion for selected one-step reactions at moderate plasma temperatures. The D(p,gamma)He-3 reaction allows the best direct fast-ion energy resolution. We illustrate our general formalism using reactions with and without intrinsic broadening of the gamma-rays for the GRS diagnostic at JET.<br />QC 20200416