Analytical model for the ohmic-side interstrip resistance of double-sided silicon microstrip detectors

Author

Verzellesi, Giovanni ; Betta, Gian-Franco Dalla ; Pignatel, Giorgio U.

Author_Institution

Dipartimento di Sci. dell´´Ingegneria, Modena Univ., Italy

Volume

48

Issue

4

fYear

2001

fDate

8/1/2001 12:00:00 AM

Firstpage

972

Lastpage

976

Abstract

A compact, analytical model is derived for the n-side interstrip resistance of double-sided silicon microstrip detectors, allowing for fast and accurate prediction of the minimum p-stop (or p-spray) implant dose ensuring adequate interstrip isolation. The basic idea on which the proposed model relies is that the portion of the detector between two adjacent n-strips can effectively be reduced to an equivalent n-channel MOSFET. The interstrip resistance can be evaluated as the output resistance of this equivalent MOSFET using standard SPICE-like models. The influence of radiation-induced oxide charge and p-stop (or p-spray) voltage can be accounted for by simply including, in the threshold voltage expression, the induced flat-band voltage shift and body-effect term, respectively

Keywords

SPICE; electrical resistivity; equivalent circuits; radiation effects; semiconductor device models; silicon radiation detectors; Si; body-effect term; double-sided silicon microstrip detectors; equivalent MOSFET; induced flat-band voltage shift; interstrip resistance; minimum p-spray implant dose; minimum p-stop implant dose; ohmic-side interstrip resistance; output resistance; radiation-induced oxide charge; threshold voltage expression; Analytical models; Detectors; Electrons; Implants; MOSFET circuits; Microstrip; Passivation; Silicon; Surface resistance; Threshold voltage;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/23.958707

Filename

958707