Channeling of relativistic particles in bent Si crystals is a powerful technique for use with accelerators. Its efficiency can be found to be highly dependent on the state of the surface of the crystal steering the particles. We investigated the morphology and structure of the surface of the samples that have been used with high efficiency for channeling in accelerators. Low-energy channeling of 2-MeV α particles or protons was used as a probe. We found that mechanical treatment of the samples leads to a superficial damaged layer, which is correlated to efficiency limitations of the crystal in accelerators. In contrast, chemical etching, which was used to treat the surface of the most efficient crystals, leaves a surface with superior perfection.

Low-energy-channeling surface analysis on silicon crystals designed for high-energy-channeling in accelerators

BARICORDI, Stefano;GUIDI, Vincenzo;MARTINELLI, Giuliano;MILAN, Emiliano;
2005

Abstract

Channeling of relativistic particles in bent Si crystals is a powerful technique for use with accelerators. Its efficiency can be found to be highly dependent on the state of the surface of the crystal steering the particles. We investigated the morphology and structure of the surface of the samples that have been used with high efficiency for channeling in accelerators. Low-energy channeling of 2-MeV α particles or protons was used as a probe. We found that mechanical treatment of the samples leads to a superficial damaged layer, which is correlated to efficiency limitations of the crystal in accelerators. In contrast, chemical etching, which was used to treat the surface of the most efficient crystals, leaves a surface with superior perfection.
2005
Baricordi, Stefano; V. M., Biryukov; A., Carnera; Chesnokov, Y. U. A.; G., DELLA MEA; Guidi, Vincenzo; Ivanov, Y. U. M.; Martinelli, Giuliano; Milan, Emiliano; S., Restello; A., Sambo; W., Scandale; A., Vomiero
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1203152
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