Swift heavy ion

Swift heavy ions are the components of a type of particle beam with high enough energy that electronic stopping dominates over nuclear stopping.^[1]^[2] They are accelerated in particle accelerators to very high energies, typically in the MeV or GeV range and have sufficient energy and mass to penetrate solids on a straight line. In many solids swift heavy ions release sufficient energy to induce permanently modified cylindrical zones, so-called ion tracks. If the irradiation is carried out in an initially crystalline material, ion tracks consist of an amorphous cylinder.^[1] Ion tracks can be produced in many amorphizing materials, but not in pure metals, where the high electronic heat conductivity dissipates away the electronic heating before the ion track has time to form.

^ ^a ^b Kanjijal, D. (2001). "Swift heavy ion-induced modification and track formation in materials" (DjVu). Current Science. 80 (12): 1560.
^ M. Toulemonde, W. Assmann, C. Dufour, A. Meftah, F. Studer, and C. Trautmann, Experimental phenomena and thermal spike model description of ion tracks in amorphisable inorganic insulators, Mat. Fys. Medd. Kong. Dan. Vid. Selsk. 52, 263 (2006).

[Kan01-1] Kanjijal, D. (2001). "Swift heavy ion-induced modification and track formation in materials" (DjVu). Current Science. 80 (12): 1560.

[Tou06-2] M. Toulemonde, W. Assmann, C. Dufour, A. Meftah, F. Studer, and C. Trautmann, Experimental phenomena and thermal spike model description of ion tracks in amorphisable inorganic insulators, Mat. Fys. Medd. Kong. Dan. Vid. Selsk. 52, 263 (2006).

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