S. G. Wang scite author profile

S. G. Wang

2Publications

42Citation Statements Received

63Citation Statements Given

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University of Surrey

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Mapping of polarization and detrapping effects in synthetic single crystal chemical vapor deposited diamond by ion beam induced charge imaging

Lohstroh¹,

Sellin²,

Wang³

et al. 2007

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Diamond has been regarded as a promising radiation detector material for use as a solid state ionizing chamber for decades. The parameters degrading the charge transport from what is expected from an ideal crystal are still not completely understood. Recently, synthetic chemical vapor deposited ͑CVD͒ single crystal diamond has become available, offering the opportunity to study the properties of synthesized material independent of grain boundaries. We have studied the charge transport of a synthetic single crystal diamond with ␣-particle induced charge transients as a function of temperature and established the presence of a shallow hole trap with an activation energy of 0.29± 0.02 eV in some parts of the detector. Ion beam induced charge imaging has been used to study the spatial variations of the charge transport in a synthetic single crystal diamond. Pulses influenced by the shallow hole trap had their origin close to the substrate/CVD interface of the sample. They could be clearly distinguished from pulses affected by reduced charge carrier velocities due to polarization phenomena, which varied systematically with the growth direction of the CVD diamond material.

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Effect of dislocations on charge carrier mobility–lifetime product in synthetic single crystal diamond

Lohstroh

Sellin

Wang

et al. 2007

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The authors report correlations between variations in charge transport of electrons and holes in synthetic single crystal diamond and the presence of nitrogen impurities and dislocations. The spatial distribution of these defects was imaged using their characteristic luminescence emission and compared with maps of carrier drift length measured by ion beam induced charge imaging. The images indicate a reduction of electron and hole mobility-lifetime product due to nitrogen impurities and dislocations. Very good charge transport is achieved in selected regions where the dislocation density is minimal. © 2007 American Institute of Physics. ͓DOI: 10.1063/1.2711754͔ Diamond has been studied for many decades as a solid state ionization chamber for radiation detection. 1,2 It combines a number of extreme properties, such as large charge carrier saturation velocities, radiation hardness, tissue equivalence, chemical inertness, and high thermal conductivity. Its large band gap of 5.48 eV results in solar blindness and low leakage currents during room temperature operation, 3 for example, in high energy physics experiments, 4 medical dosimetry, 2 beam monitoring, 4 and neutron detection. 5 The detector performance and stability are determined by structural imperfections and impurities in the material, which influence the induced current signal. In polycrystalline diamond detectors it is known that grain boundaries act as charge trapping centers, severely limiting the spectroscopic performance. Ion beam induced charge ͑IBIC͒ imaging has been used routinely to study diamond radiation detectors, their priming behavior, and interactions due to optical illumination. 6 Recently, single crystal chemical vapor deposited ͑CVD͒ diamond has been synthesized successfully in a number of laboratories. [7][8][9] This material allows us to study the effect of defects on charge transport in the absence of grain boundaries.In this work, we present a combination of luminescence and IBIC imaging in a synthetic single crystal diamond provided by Element Six Ltd. ͑UK͒. The spatial defect distribution of the material has been investigated using a photograph of the luminescence excited by Ͻ227 nm wavelength ultraviolet ͑UV͒ irradiation of a xenon lamp. Cathodoluminescence ͑CL͒ spectral imaging at room temperature has been carried out at the University of Strathclyde 10 with an electron energy of 10 keV and typical beam currents of 4 -10 nA. IBIC images were acquired at room temperature at the nuclear microbeam facility of the Surrey Ion Beam Centre. 11 The IBIC spatial resolution is limited to 10 m by the number of pixels in the scan area.Each proton interaction produces electron hole pairs, corresponding to a charge Q 0 in the device, and the charge carriers drift through the material according to the electric field. The induced current pulse is integrated by an Ortec 142 A charge sensitive preamplifier followed by an Ortec 570 shaping amplifier. The amplitude Q of each interaction is proportional to the carrier drift length; it is calibrated...

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S. G. Wang

Mapping of polarization and detrapping effects in synthetic single crystal chemical vapor deposited diamond by ion beam induced charge imaging

Effect of dislocations on charge carrier mobility–lifetime product in synthetic single crystal diamond

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