Origin of the 420nm Absorption Band and Effect of Doping Fluorine in PbWO<suB>4</suB> Crystals

Chin. Phys. Lett.

2005, Vol. 22

Issue (1): 215-218 DOI:

Original Articles

Origin of the 420nm Absorption Band and Effect of Doping Fluorine in PbWO₄ Crystals

TAO Kun;ZHANG Qi-Ren;LIU Ting-Yu;ZHANG Fei-Wu

College of Science, University of Shanghai for Science and Technology, Shanghai 200093

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TAO Kun, ZHANG Qi-Ren, LIU Ting-Yu et al 2005 Chin. Phys. Lett. 22 215-218

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Abstract The electronic structures for three types of PbWO₄ (PWO) crystals, the perfect PWO, the PWO containing lead vacancy (PWO-V_pb) and fluorine doped PWO crystal (F^-:PWO), are systematically studied within the framework of density functional theory. The computational results show that the Pb 6s state situates below the valence band so that Pb² ions are unable to trap holes forming Pb³⁺ or Pb⁴⁺ to compensate for V_pb^2-. The hole-trappers in PWO-V_pb are O^2- ions. Two of the longer-bond O^2- ions share a hole forming O₂^3-, and four of the longer-bond oxygen ions trap two holes forming an associated color centre [O₂^3--V_pb-O₂^3-], which may be the origin of the 420nm absorption band. It is also concluded that the doping of F^- would reduce the band gap and F^- ions substituting for O^2- can effectively restrict the formation of [O₂^3--V_pb-O₂^3-] and weaken the 420nm absorption band and hence enhance the scintillation property of PWO.

Keywords: 76.30.Mi 74.62.Dh 71.20.-b

Published: 01 January 2005

PACS:	76.30.Mi	(Color centers and other defects)
	74.62.Dh	(Effects of crystal defects, doping and substitution)
	71.20.-b	(Electron density of states and band structure of crystalline solids)

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https://cpl.iphy.ac.cn/ OR https://cpl.iphy.ac.cn/Y2005/V22/I1/0215

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