Measurements of Charge Collection Efficiency of p<sup>+</sup>/n Junction SiC Detectors-Reference-Cited by-同舟云学术

Measurements of Charge Collection Efficiency of p⁺/n Junction SiC Detectors

Published:2005-05 Issue: Volume:483-485 Page:1021-1024
ISSN:1662-9752
Container-title:Materials Science Forum
language:
Short-container-title:MSF

Author:

Moscatelli Francesco¹,Scorzoni Andrea²,Poggi Antonella¹,Bruzzi Mara³,Lagomarsino Stefano³,Mersi Stefano,Sciortino Silvio³,Lazar Mihai⁴,Di Placido Annalisa,Nipoti Roberta⁵^ORCID

Affiliation:

1. CNR-IMM

2. Univeristà di Perugia

3. Polo Scioentifico

4. Université de Lyon

5. CNR-IMM Sezione di Bologna

Abstract

Silicon carbide is a promising wide-gap material because of its excellent electrical and physical properties, which are very relevant to technological applications. In particular, silicon carbide can represent a good alternative to Si in applications like the inner tracking detectors of particle physics experiments [1]. In this work p+/n SiC diodes realized on a medium doped (1×1015 cm -3), 40 µm thick epitaxial layer are exploited as detectors and measurements of their charge collection properties under beta particle radiation from Sr90 source are presented. Preliminary results till 900 V reverse voltage show a good collection efficiency of 1700 e- and a collection length (ratio between collected charges and generated e-h pairs/µm) equal to the estimated width of the depleted region.

Publisher

Trans Tech Publications, Ltd.

Subject

Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science

Link

https://www.scientific.net/MSF.483-485.1021.pdf

Reference12 articles.

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2. Bertuccio et al., Study of silicon carbide for X-ray detection and spectroscopy, IEEE Trans. Nucl. Sci., vol. 50, pp.175-185, (2003).

3. M. Rugalla, K. Runge, A. Soldner-Rembold, Nuclear Physics B, vol. 78 (1999) 516-520.

4. T. Dubbs et al., Developments of radiation hard materials for microstrip detectors, IEEE Trans. Nucl. Sci., vol. 46, pp.839-843, (1999).

5. F. Nava, et al., IEEE Transactions on Nuclear Science, Vol. 51, No. 1 (February, 2004).

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