Comparative Study of Nonproportionality and Electronic Band Structures Features in Scintillator Materials

Author

Setyawan, Wahyu ; Gaume, Romain M. ; Feigelson, Robert S. ; Curtarolo, Stefano

Author_Institution

Dept. of Mech. Eng. & Mater. Sci., Duke Univ., Durham, NC, USA

Volume

56

Issue

5

fYear

2009

Firstpage

2989

Lastpage

2996

Abstract

The origin of nonproportionality in scintillator materials has been a long standing problem for more than four decades. In this manuscript, we show that, with the help of first principle modeling, the parameterization of the nonproportionality for several systems, with respect to their band structure curvature suggests a correlation between carrier effective mass and energy response. We attribute this correlation to the case where free electrons and holes are the major energy carriers. Excitonic scintillators do not show such a definitive trend. This model suggests a potential high-throughput approach for discovering novel proportional scintillators in the former class of materials.

Keywords

band structure; effective mass; excitons; lithium compounds; proportional counters; scintillation counters; LiBaF₃; carrier effective mass; carrier energy; electronic band structure; excitonic proportional scintillator materials; free electrons; free holes; nonproportionality parameterization; Charge carrier processes; Effective mass; Electrons; Energy resolution; Excitons; Materials science and technology; Object detection; Radiation detectors; Scintillation counters; Solid scintillation detectors; Electronic structures; nonproportionality; photon response; scintillator materials;

fLanguage

English

Journal_Title

Nuclear Science, IEEE Transactions on

Publisher

ieee

ISSN

0018-9499

Type

jour

DOI

10.1109/TNS.2009.2027019

Filename

5280482