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High gain observed in X‐ray induced currents in synthetic single crystal diamonds
Author(s) -
Lohstroh A.,
Sellin P. J.,
Boroumand F.,
Morse J.
Publication year - 2007
Publication title -
physica status solidi (a)
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.532
H-Index - 104
eISSN - 1862-6319
pISSN - 1862-6300
DOI - 10.1002/pssa.200776332
Subject(s) - materials science , diamond , ohmic contact , chemical vapor deposition , single crystal , crystal (programming language) , dosimeter , synthetic diamond , x ray , optoelectronics , substrate (aquarium) , dosimetry , analytical chemistry (journal) , radiation , optics , chemistry , nanotechnology , crystallography , composite material , nuclear medicine , medicine , physics , oceanography , layer (electronics) , chromatography , geology , computer science , programming language
Abstract Diamond is considered as tissue equivalent, due to its low atomic number, which makes it a particular attractive material for medical radiation dosimetry applications. X‐ray dosimeters made of natural single crystal diamonds are commercially available and routinely used, with typical gain values of about 0.5. The selection of suitable natural diamonds for this purpose is time and cost intensive. We report an X‐ray induced current study in synthetic single crystal diamonds. Similar to natural diamond dosimeters, the devices had to be pre‐irradiated before use to achieve a reproducible performance. We compare two chemical vapour deposited (CVD) samples grown by Element Six Ltd (UK). D1 was a high purity sample contacted in a sandwich structure with an asymmetric contact pair. Sample D2 was cut vertically and contained some nitrogen rich layers. It was contacted with two Ohmic contacts, which partly covered the high temperature/high pressure substrate material. Particle spectroscopy suggests better charge transport in D1 compared to D2, most likely caused by the lower purity. In contrast to this, large gain values up to 6 × 10 4 and a sensitivity of ∼30 mC/Gy were measured at field strengths of 2 kV/cm in D2, and only 7 µC/Gy in D1, despite their comparable volumes. We deduce that the gain observed in these devices is affected by the electrical properties of the metal‐diamond contacts. The response time of the high gain device was in the order of minutes, which is longer than expected by a purely photoconductive process. Long persistent currents have been reported before in diamond under UV irradiation and modifications of gain and response time by surface treatment of UV detectors are known in the literature, highlighting the influence of the surface and contact interface on the device operation. Our results indicate that synthetic single crystal diamond provides a promising material for high sensitivity tissue‐equivalent X‐ray dosimeters. (© 2007 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)