New types of lead tungstate crystals with high light yield

Author

Mao, R.H. ; Qu, X.D. ; Ren, G.H. ; Shen, D.Z. ; Stoll, S.P. ; Woody, C.L. ; Yin, Z.W. ; Zhang, L.Y. ; Zhu, R.Y.

Author_Institution

Shanghai Inst. of Ceramics, China

Volume

1

fYear

2000

fDate

2000

Firstpage

42528

Abstract

Because of their high stopping power and fast scintillation, lead tungstate crystals have attracted much attention in the high energy physics and nuclear physics communities. The use of lead tungstate, however, is limited by its low light output. An effort has been made at the Shanghai Institute of Ceramics to improve this. The results indicate that a factor of six increase of the light output, mainly in the microsecond decay component, may be achieved. The X-ray diffraction pattern, photoluminescence spectrum, light output, decay kinetics and transmittance spectrum of new samples are presented. Longitudinal uniformity of a sample of 22 radiation lengths is studied. Possible applications for calorimetry in high energy and nuclear physics experiments are discussed

Keywords

X-ray diffraction; lead compounds; particle calorimetry; photoluminescence; scintillation; solid scintillation detectors; PbWO₄; PbWO₄ crystals; X-ray diffraction; calorimetry; decay kinetics; light output; light yield; longitudinal uniformity; photoluminescence spectrum; scintillation; stopping power; transmittance spectrum; Ceramics; Collision mitigation; Contamination; Crystalline materials; Crystals; Doping; Large Hadron Collider; Lead; Nuclear physics; Silicon carbide;

fLanguage

English

Publisher

ieee

Conference_Titel

Nuclear Science Symposium Conference Record, 2000 IEEE

Conference_Location

Lyon

ISSN

1082-3654

Print_ISBN

0-7803-6503-8

Type

conf

DOI

10.1109/NSSMIC.2000.949109

Filename

949109