Amorphous selenium photodetector driven by diamond cold cathode

Author

Suzuki, Y. ; Yamaguchi, H. ; Oonuki, K. ; Okamura, Y. ; Okano, K.

Author_Institution

Dept. of Phys., Int. Christian Univ., Tokyo, Japan

Volume

24

Issue

1

fYear

2003

Firstpage

16

Lastpage

18

Abstract

Amorphous selenium is one of the most promising candidates as photoconducting material for future imaging devices. It can exhibit ultra-high photosensitivity by using avalanche multiplication inside the solid. However, the requirement of high vacuum by the electron emitters prevents amorphous selenium from being a realistic imaging device in general. Diamond, with its outstanding properties of negative electron affinity and high chemical stability, can be an ultimate emitter with low extraction field and low vacuum operation, especially for imaging devices. This report presents the first successful operation of an amorphous selenium photodetector with low operational vacuum and extraction field using a diamond cold cathode.

Keywords

amorphous semiconductors; cold-cathode tubes; diamond; electron field emission; elemental semiconductors; image sensors; photoconducting materials; photodetectors; selenium; vacuum microelectronics; C; Se-ITO; Se-InSnO; a-Se photodetector; avalanche multiplication; diamond cold cathode; high chemical stability; imaging devices; low extraction field; low vacuum operation; negative electron affinity; photoconducting material; ultra-high photosensitivity; vacuum microelectronics; Amorphous materials; Cathodes; Chemical vapor deposition; Electron emission; Electron guns; Electron tubes; Indium tin oxide; Microelectronics; Photodetectors; Stability;

fLanguage

English

Journal_Title

Electron Device Letters, IEEE

Publisher

ieee

ISSN

0741-3106

Type

jour

DOI

10.1109/LED.2002.807018

Filename

1185196