Emmanuel Rowe scite author profile

We report on the scintillation properties of Cs2HfCl6 (cesium hafnium chloride or CHC) as an example of a little-known class of non-hygroscopic compounds having the generic cubic crystal structure of K2PtCl6. The crystals are easily growable from the melt using the Bridgman method with minimal precursor treatments or purification. CHC scintillation is centered at 400 nm, with a principal decay time of 4.37 μs and a light yield of up to 54 000 photons/MeV when measured using a silicon CCD photodetector. The light yield is the highest ever reported for an undoped crystal, and CHC also exhibits excellent light yield nonproportionality. These desirable properties allowed us to build and test CHC gamma-ray spectrometers providing energy resolution of 3.3% at 662 keV.

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Nonlinear quenching of densely excited states in wide-gap solids

Grim

Üçer

Bürger

et al. 2013

Phys. Rev. B

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Bridgman growth of large SrI2:Eu2+ single crystals: A high-performance scintillator for radiation detection applications

Boatner

Ramey

Kolopus

et al. 2013

Journal of Crystal Growth

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Lithium containing chalcogenide single crystals for neutron detection

Tupitsyn

Bhattacharya

Rowe

et al. 2014

Journal of Crystal Growth

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Emmanuel Rowe

Cesium hafnium chloride: A high light yield, non-hygroscopic cubic crystal scintillator for gamma spectroscopy

Nonlinear quenching of densely excited states in wide-gap solids

Bridgman growth of large SrI2:Eu2+ single crystals: A high-performance scintillator for radiation detection applications

Lithium containing chalcogenide single crystals for neutron detection

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