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Single Crystal Diamond Radiation Detector

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dc.contributor.author AOKI, Toru
dc.date.accessioned 2023-11-01T12:04:02Z
dc.date.available 2023-11-01T12:04:02Z
dc.date.issued 2023
dc.identifier.citation AOKI, Toru. Single Crystal Diamond Radiation Detector. In: 6th International Conference on Nanotechnologies and Biomedical Engineering, ICNBME, September 20-23, 2023, Chisinau: Abstract Book, pp. 37-38. ISBN 978-9975-72-773-0. en_US
dc.identifier.isbn 978-9975-72-773-0
dc.identifier.uri http://repository.utm.md/handle/5014/24586
dc.description.abstract We have reported on the growth of single-crystal diamond and its application to radiation detectors. This time, we report on the measurement of an imager with a photon-charge counting read out integrated circuit (ROIC) connected to a single-crystal diamond. The single crystal diamond was 3.0 x 3.0mm x 0.5mm thick. The bump connection area of our test ROIC is a 3.2mm x 3.2mm area with 40 x 40 pixels pads with 80µm pitch. Silver-based bumps were formed on short-crystal diamond using a super inkjet printer and bumped to the ROIC using flip chip bonders. The imaging experiment was conducted by irradiating X-rays at 90 kV and 0.2 mA at 30cm distance. The results showed that the X-ray transmission image with a clear contrast between the area shielded by 2 mm thick lead and the unshielded area was captured, demonstrating a prototype single-crystal diamond-type X-ray imager. CVD growth single-crystal diamond was used for the semiconductor detector. The crystal was 3 mm x 3 mm x 0.5 mm in size. The plate electrode was formed by sputtering a thin indium film. The other side had no electrode formed before stacking, but was connected to the ROIC by contact with the silver paste formed on the ROIC side during stacking. 40 × 40 electrodes were arranged at a pitch of 80 μm for the ROIC, and the maximum crystal size was 3.2 mm × 3.2 mm. However, due to the small crystal size, the detection area is 3.0 mm x 3.0 mm and 38 x 38 pixels. For the connection to the crystal, silver paste bumps were formed on the electrodes of the ROIC using a SIJ-S050 super inkjet printer manufactured by SIJ-Technology, Inc. The readout architecture of the ROIC was designed by our group [3],[4] and the transistor-level circuitry was designed by designed by Brookman Technology, Inc. (now TOPPAN Inc.) and fabricated in a TSMC (Taiwan Semiconductor Manu- fracturing Company Limited) 0.13-μm standard CMOS process. Figure 1 shows the assembled diamond imager and its stacked structure. The ROIC was operated in electron collection mode. A bias voltage of -500 V was applied to the plate electrodes. the frame rate of the ROIC was 200 Hz. 10 seconds (2,000 frames) were taken and the counts were summed to obtain one image. an x-ray tube with a tube voltage of 100 kV was used as the x-ray source. the distance from the tube to the detector was 20 cm. A 3 mm x 3 mm lead plate with a thickness of 1 mm was used as the X-ray shield. The shielding body was shaped like a Japanese character. The shielding was placed between the X-ray tube and the detector, 5 mm away from the detector. It was confirmed that X-rays were detected as expected when X-rays were irradiated with and without the shielding. Next, a shielding was placed in front of the detector and the shielding was imaged. As shown in Figure 2, the shape of the shielding was obtained as an image. en_US
dc.language.iso en en_US
dc.publisher Universitatea Tehnică a Moldovei en_US
dc.rights Attribution-NonCommercial-NoDerivs 3.0 United States *
dc.rights.uri http://creativecommons.org/licenses/by-nc-nd/3.0/us/ *
dc.subject test ROIC en_US
dc.subject irradiating X-rays en_US
dc.subject single-crystal diamond-type X-ray imager en_US
dc.title Single Crystal Diamond Radiation Detector en_US
dc.type Article en_US


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  • 2023
    6th International Conference on Nanotechnologies and Biomedical Engineering, September 20–23, 2023, Chisinau, Moldova

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Attribution-NonCommercial-NoDerivs 3.0 United States Except where otherwise noted, this item's license is described as Attribution-NonCommercial-NoDerivs 3.0 United States

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