V.V. Porosev scite author profile

We present here a comprehensive study of the light yield of primary and secondary scintillations produced in gaseous and liquid Ar in the near infrared (NIR) and visible region, at cryogenic temperatures. The measurements were performed using Geiger-mode avalanche photodiodes (GAPDs) and pulsed X-ray irradiation. The primary scintillation yield of the fast emission component in gaseous Ar was found to be independent of temperature in the range of 87-160 K; it amounted to 17000±3000 photon/MeV in the NIR in the range of 690-1000 nm. In liquid Ar at 87 K, the primary scintillation yield of the fast component was considerably reduced, amounting to 510±90 photon/MeV, in the range of 400-1000 nm. Proportional NIR scintillations (electroluminescence) in gaseous Ar were also observed; their amplification parameter at 160 K was measured to be 13 photons per drifting electron per kV. No proportional scintillations were observed in liquid Ar up to the electric fields of 30 kV/cm. The applications of NIR scintillations in dark matter search and coherent neutrino-nucleus scattering experiments and in ion beam radiotherapy are considered.

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Neutron Source Based on Vacuum Insulated Tandem Accelerator and Lithium Target

Taskaev

Berendeev

Bikchurina

et al. 2021

Biology

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A compact accelerator-based neutron source has been proposed and created at the Budker Institute of Nuclear Physics in Novosibirsk, Russia. An original design tandem accelerator is used to provide a proton beam. The proton beam energy can be varied within a range of 0.6–2.3 MeV, keeping a high-energy stability of 0.1%. The beam current can also be varied in a wide range (from 0.3 mA to 10 mA) with high current stability (0.4%). In the device, neutron flux is generated as a result of the 7Li(p,n)7Be threshold reaction. A beam-shaping assembly is applied to convert this flux into a beam of epithermal neutrons with characteristics suitable for BNCT. A lot of scientific research has been carried out at the facility, including the study of blistering and its effect on the neutron yield. The BNCT technique is being tested in in vitro and in vivo studies, and the methods of dosimetry are being developed. It is planned to certify the neutron source next year and conduct clinical trials on it. The neutron source served as a prototype for a facility created for a clinic in Xiamen (China).

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Photon counting and integrating analog gaseous detectors for digital scanning radiography

Babichev

Baru

Groshev

et al. 1998

Nuclear Instruments and Methods in Physics Research Section A:

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Characterization of a 109Cd γ-Ray Source for the Two-Phase Argon Detector

et al. 2019

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A: At present, a two-phase argon detector is being developed in our laboratory for dark matter search and low-energy neutrino experiments. To calibrate its energy scale a 109 Cd gammaray source was used. In this work a detailed emission spectrum of the 109 Cd source was measured using YAP:Ce scintillator and high-purity germanium (HPGe) detectors. It is shown that the 109 Cd source, equipped with a W substrate and a Cu filter, can provide a complete set of gamma-ray lines, ranging from 8 to 90 keV, for the energy calibration of two-phase detectors. These measurements allowed us to successfully quantify the shape of the amplitude spectra observed in the two-phase argon detector when irradiated with the 109 Cd source.

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V.V. Porosev

Study of infrared scintillations in gaseous and liquid argon. Part II: light yield and possible applications

Neutron Source Based on Vacuum Insulated Tandem Accelerator and Lithium Target

Photon counting and integrating analog gaseous detectors for digital scanning radiography

Characterization of a 109Cd γ-Ray Source for the Two-Phase Argon Detector

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