Material properties of large-volume cadmium zinc telluride crystals and their relationship to nuclear detector performance

Autor:	E. Cross, C. L. Lingren, Arnold Burger, Jason R. Heffelfinger, Tuviah E. Schlesinger, Michael M. Schieber, J.C. Lund, E. Y. Lee, Henry Chen, Haim Hermon, N. R. Hilton, Ralph B. James, W. Yao, F. P. Doty, Mark S. Goorsky, James E. Toney, R.W. Olsen, B. A. Brunett, J. M. Van Scyoc, H. Yoon
Rok vydání:	1998
Předmět:	Fabrication Materials science Spectrometer Passivation Physics::Instrumentation and Detectors business.industry Detector Analytical chemistry Condensed Matter Physics Electronic Optical and Magnetic Materials Cadmium zinc telluride Semiconductor detector chemistry.chemical_compound chemistry Etching Materials Chemistry Optoelectronics Electrical and Electronic Engineering business Material properties
Zdroj:	Journal of Electronic Materials. 27:788-799
ISSN:	1543-186X 0361-5235
DOI:	10.1007/s11664-998-0055-x
Popis:	The material showing the greatest promise today for production of large-volume gamma-ray spectrometers operable at room temperature is cadmium zinc telluride (CZT). Unfortunately, because of deficiencies in the quality of the present material, high-resolution CZT spectrometers have thus far been limited to relatively small dimensions, which makes them inefficient at detecting high photon energies and ineffective for weak radiation signals except in near proximity. To exploit CZT fully, it will be necessary to make substantial improvements in the material quality. Improving the material involves advances in the crystallinity, purity, carrier lifetimes, and control of the electrical compensation mechanism. A more detailed understanding of the underlying material problems limiting the performance of CZT gamma-ray detectors is required; otherwise, problems with supply, delivery times, and unit cost of large-volume (>5 cm3 active volume) CZT spectrometers are expected to continue. A variety of analytical and numerical techniques have been employed to quantify crystallinity, strain, impurities, compositional and stoichiometric variations, bulk and surface defect states, carrier mobilities and lifetimes, electric field distributions, and surface passivation. Data from these measurements were correlated with spatial maps of the gamma-ray and alpha particle spectroscopic response, and feedback on the effectiveness of crystal growth and detector fabrication procedures has been generated. The results of several of these analytical techniques will be presented in this paper.
Databáze:	OpenAIRE
Externí odkaz:	https://explore.openaire.eu/search/publication?articleId=doi_________::0681aab09359552958ca1744e99fd84b https://doi.org/10.1007/s11664-998-0055-x Zobrazit plný text záznamu Full text from SpringerLink