The Experts below are selected from a list of 21 Experts worldwide ranked by ideXlab platform
A Simonenko - One of the best experts on this subject based on the ideXlab platform.
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Light yield and radiation hardness studies of scintillator strips with a filler
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 2019Co-Authors: A Artikov, V Baranov, D Chokheli, Yu I Davydov, Y N Kharzheev, J. Budagov, M. Bulavin, V. V. Glagolev, V. Kolomoets, A SimonenkoAbstract:Abstract Detectors based on polystyrene scintillator strips with WLS fiber readout are widely used to register charged particles in many high-energy physics experiments. The fibers are placed into grooves or Holes along the strip. The detection efficiency of these devices can be significantly increased by improving the optical contact between the scintillator and the fiber by adding an optical filler into the groove/Hole. This work is devoted to the study of the light yield of a 5 m long scintillator strip with a 1.2 mm diameter Kuraray Y11(200) MC WLS fiber inserted into the strip’s co-Extruded Hole filled with synthetic silicon resin SKTN-MED(E). The light yield was studied using cosmic muons and a 60 Co radioactive source. Viscous fillers and short strip samples were irradiated by neutrons on the IBR-2 pulsed research reactor at JINR.
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Light yield and radiation hardness studies of scintillator strips with a filler
arXiv: Instrumentation and Detectors, 2017Co-Authors: A Artikov, V Baranov, D Chokheli, Yu I Davydov, Y N Kharzheev, M. Bulavin, V. V. Glagolev, V. Kolomoets, Yu.a. Budagov, A SimonenkoAbstract:Detectors based on polystyrene scintillator strips with WLS fiber readout are widely used to register charged particles in many high-energy physics experiments. The fibers are placed into grooves or Holes along the strip. The detection efficiency of these devices can be significantly increased by improving the optical contact between the scintillator and the fiber by adding an optical filler into the groove/Hole. This work is devoted to the study of the light yield of a 5-m-long scintillator strip with a 1.2-mm-diameter Kuraray Y11(200)~MC WLS fiber inserted into the strip's co-Extruded Hole filled with synthetic silicon resin SKTN-MED(E). The light yield was studied using cosmic muons and a $^{60}Co$ radioactive source. Radiation hardness study of viscous fillers and short strip samples were performed on the IBR-2 pulsed research reactor of fast neutrons at JINR.
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optimization of light yield by injecting an optical filler into the co Extruded Hole of the plastic scintillation bar
Journal of Instrumentation, 2016Co-Authors: A Artikov, V Baranov, Ju Budagov, D Chokheli, Yu I Davydov, V Glagolev, Y N Kharzheev, V Kolomoetz, A Shalugin, A SimonenkoAbstract:The light yield of 2-m long Extruded scintillation bars (strips) are measured with cosmic muons as a function of the distance for different options of the light collection technique. The strips with a 2.6-mm diameter central co-Extruded Hole were made of polystyrene with the 2% PTP and 0.03% POPOP dopants at ISMA (Kharkov, Ukraine). It is shown that the optical transparent BC-600 or CKTN-MED(E) resin injected by a special technique into the co-Extruded Hole with a 1.0-mm or 1.2-mm Kuraray Y11 (200) MC wave-length shifting (WLS) fiber in it improves light collection by a factor of 1.6–1.9 against the ``dry'' case.
A Artikov - One of the best experts on this subject based on the ideXlab platform.
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Light yield and radiation hardness studies of scintillator strips with a filler
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 2019Co-Authors: A Artikov, V Baranov, D Chokheli, Yu I Davydov, Y N Kharzheev, J. Budagov, M. Bulavin, V. V. Glagolev, V. Kolomoets, A SimonenkoAbstract:Abstract Detectors based on polystyrene scintillator strips with WLS fiber readout are widely used to register charged particles in many high-energy physics experiments. The fibers are placed into grooves or Holes along the strip. The detection efficiency of these devices can be significantly increased by improving the optical contact between the scintillator and the fiber by adding an optical filler into the groove/Hole. This work is devoted to the study of the light yield of a 5 m long scintillator strip with a 1.2 mm diameter Kuraray Y11(200) MC WLS fiber inserted into the strip’s co-Extruded Hole filled with synthetic silicon resin SKTN-MED(E). The light yield was studied using cosmic muons and a 60 Co radioactive source. Viscous fillers and short strip samples were irradiated by neutrons on the IBR-2 pulsed research reactor at JINR.
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Light yield and radiation hardness studies of scintillator strips with a filler
arXiv: Instrumentation and Detectors, 2017Co-Authors: A Artikov, V Baranov, D Chokheli, Yu I Davydov, Y N Kharzheev, M. Bulavin, V. V. Glagolev, V. Kolomoets, Yu.a. Budagov, A SimonenkoAbstract:Detectors based on polystyrene scintillator strips with WLS fiber readout are widely used to register charged particles in many high-energy physics experiments. The fibers are placed into grooves or Holes along the strip. The detection efficiency of these devices can be significantly increased by improving the optical contact between the scintillator and the fiber by adding an optical filler into the groove/Hole. This work is devoted to the study of the light yield of a 5-m-long scintillator strip with a 1.2-mm-diameter Kuraray Y11(200)~MC WLS fiber inserted into the strip's co-Extruded Hole filled with synthetic silicon resin SKTN-MED(E). The light yield was studied using cosmic muons and a $^{60}Co$ radioactive source. Radiation hardness study of viscous fillers and short strip samples were performed on the IBR-2 pulsed research reactor of fast neutrons at JINR.
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optimization of light yield by injecting an optical filler into the co Extruded Hole of the plastic scintillation bar
Journal of Instrumentation, 2016Co-Authors: A Artikov, V Baranov, Ju Budagov, D Chokheli, Yu I Davydov, V Glagolev, Y N Kharzheev, V Kolomoetz, A Shalugin, A SimonenkoAbstract:The light yield of 2-m long Extruded scintillation bars (strips) are measured with cosmic muons as a function of the distance for different options of the light collection technique. The strips with a 2.6-mm diameter central co-Extruded Hole were made of polystyrene with the 2% PTP and 0.03% POPOP dopants at ISMA (Kharkov, Ukraine). It is shown that the optical transparent BC-600 or CKTN-MED(E) resin injected by a special technique into the co-Extruded Hole with a 1.0-mm or 1.2-mm Kuraray Y11 (200) MC wave-length shifting (WLS) fiber in it improves light collection by a factor of 1.6–1.9 against the ``dry'' case.
D Chokheli - One of the best experts on this subject based on the ideXlab platform.
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Light yield and radiation hardness studies of scintillator strips with a filler
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 2019Co-Authors: A Artikov, V Baranov, D Chokheli, Yu I Davydov, Y N Kharzheev, J. Budagov, M. Bulavin, V. V. Glagolev, V. Kolomoets, A SimonenkoAbstract:Abstract Detectors based on polystyrene scintillator strips with WLS fiber readout are widely used to register charged particles in many high-energy physics experiments. The fibers are placed into grooves or Holes along the strip. The detection efficiency of these devices can be significantly increased by improving the optical contact between the scintillator and the fiber by adding an optical filler into the groove/Hole. This work is devoted to the study of the light yield of a 5 m long scintillator strip with a 1.2 mm diameter Kuraray Y11(200) MC WLS fiber inserted into the strip’s co-Extruded Hole filled with synthetic silicon resin SKTN-MED(E). The light yield was studied using cosmic muons and a 60 Co radioactive source. Viscous fillers and short strip samples were irradiated by neutrons on the IBR-2 pulsed research reactor at JINR.
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Light yield and radiation hardness studies of scintillator strips with a filler
arXiv: Instrumentation and Detectors, 2017Co-Authors: A Artikov, V Baranov, D Chokheli, Yu I Davydov, Y N Kharzheev, M. Bulavin, V. V. Glagolev, V. Kolomoets, Yu.a. Budagov, A SimonenkoAbstract:Detectors based on polystyrene scintillator strips with WLS fiber readout are widely used to register charged particles in many high-energy physics experiments. The fibers are placed into grooves or Holes along the strip. The detection efficiency of these devices can be significantly increased by improving the optical contact between the scintillator and the fiber by adding an optical filler into the groove/Hole. This work is devoted to the study of the light yield of a 5-m-long scintillator strip with a 1.2-mm-diameter Kuraray Y11(200)~MC WLS fiber inserted into the strip's co-Extruded Hole filled with synthetic silicon resin SKTN-MED(E). The light yield was studied using cosmic muons and a $^{60}Co$ radioactive source. Radiation hardness study of viscous fillers and short strip samples were performed on the IBR-2 pulsed research reactor of fast neutrons at JINR.
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optimization of light yield by injecting an optical filler into the co Extruded Hole of the plastic scintillation bar
Journal of Instrumentation, 2016Co-Authors: A Artikov, V Baranov, Ju Budagov, D Chokheli, Yu I Davydov, V Glagolev, Y N Kharzheev, V Kolomoetz, A Shalugin, A SimonenkoAbstract:The light yield of 2-m long Extruded scintillation bars (strips) are measured with cosmic muons as a function of the distance for different options of the light collection technique. The strips with a 2.6-mm diameter central co-Extruded Hole were made of polystyrene with the 2% PTP and 0.03% POPOP dopants at ISMA (Kharkov, Ukraine). It is shown that the optical transparent BC-600 or CKTN-MED(E) resin injected by a special technique into the co-Extruded Hole with a 1.0-mm or 1.2-mm Kuraray Y11 (200) MC wave-length shifting (WLS) fiber in it improves light collection by a factor of 1.6–1.9 against the ``dry'' case.
Yu I Davydov - One of the best experts on this subject based on the ideXlab platform.
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Light yield and radiation hardness studies of scintillator strips with a filler
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 2019Co-Authors: A Artikov, V Baranov, D Chokheli, Yu I Davydov, Y N Kharzheev, J. Budagov, M. Bulavin, V. V. Glagolev, V. Kolomoets, A SimonenkoAbstract:Abstract Detectors based on polystyrene scintillator strips with WLS fiber readout are widely used to register charged particles in many high-energy physics experiments. The fibers are placed into grooves or Holes along the strip. The detection efficiency of these devices can be significantly increased by improving the optical contact between the scintillator and the fiber by adding an optical filler into the groove/Hole. This work is devoted to the study of the light yield of a 5 m long scintillator strip with a 1.2 mm diameter Kuraray Y11(200) MC WLS fiber inserted into the strip’s co-Extruded Hole filled with synthetic silicon resin SKTN-MED(E). The light yield was studied using cosmic muons and a 60 Co radioactive source. Viscous fillers and short strip samples were irradiated by neutrons on the IBR-2 pulsed research reactor at JINR.
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Light yield and radiation hardness studies of scintillator strips with a filler
arXiv: Instrumentation and Detectors, 2017Co-Authors: A Artikov, V Baranov, D Chokheli, Yu I Davydov, Y N Kharzheev, M. Bulavin, V. V. Glagolev, V. Kolomoets, Yu.a. Budagov, A SimonenkoAbstract:Detectors based on polystyrene scintillator strips with WLS fiber readout are widely used to register charged particles in many high-energy physics experiments. The fibers are placed into grooves or Holes along the strip. The detection efficiency of these devices can be significantly increased by improving the optical contact between the scintillator and the fiber by adding an optical filler into the groove/Hole. This work is devoted to the study of the light yield of a 5-m-long scintillator strip with a 1.2-mm-diameter Kuraray Y11(200)~MC WLS fiber inserted into the strip's co-Extruded Hole filled with synthetic silicon resin SKTN-MED(E). The light yield was studied using cosmic muons and a $^{60}Co$ radioactive source. Radiation hardness study of viscous fillers and short strip samples were performed on the IBR-2 pulsed research reactor of fast neutrons at JINR.
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optimization of light yield by injecting an optical filler into the co Extruded Hole of the plastic scintillation bar
Journal of Instrumentation, 2016Co-Authors: A Artikov, V Baranov, Ju Budagov, D Chokheli, Yu I Davydov, V Glagolev, Y N Kharzheev, V Kolomoetz, A Shalugin, A SimonenkoAbstract:The light yield of 2-m long Extruded scintillation bars (strips) are measured with cosmic muons as a function of the distance for different options of the light collection technique. The strips with a 2.6-mm diameter central co-Extruded Hole were made of polystyrene with the 2% PTP and 0.03% POPOP dopants at ISMA (Kharkov, Ukraine). It is shown that the optical transparent BC-600 or CKTN-MED(E) resin injected by a special technique into the co-Extruded Hole with a 1.0-mm or 1.2-mm Kuraray Y11 (200) MC wave-length shifting (WLS) fiber in it improves light collection by a factor of 1.6–1.9 against the ``dry'' case.
Y N Kharzheev - One of the best experts on this subject based on the ideXlab platform.
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Light yield and radiation hardness studies of scintillator strips with a filler
Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment, 2019Co-Authors: A Artikov, V Baranov, D Chokheli, Yu I Davydov, Y N Kharzheev, J. Budagov, M. Bulavin, V. V. Glagolev, V. Kolomoets, A SimonenkoAbstract:Abstract Detectors based on polystyrene scintillator strips with WLS fiber readout are widely used to register charged particles in many high-energy physics experiments. The fibers are placed into grooves or Holes along the strip. The detection efficiency of these devices can be significantly increased by improving the optical contact between the scintillator and the fiber by adding an optical filler into the groove/Hole. This work is devoted to the study of the light yield of a 5 m long scintillator strip with a 1.2 mm diameter Kuraray Y11(200) MC WLS fiber inserted into the strip’s co-Extruded Hole filled with synthetic silicon resin SKTN-MED(E). The light yield was studied using cosmic muons and a 60 Co radioactive source. Viscous fillers and short strip samples were irradiated by neutrons on the IBR-2 pulsed research reactor at JINR.
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Light yield and radiation hardness studies of scintillator strips with a filler
arXiv: Instrumentation and Detectors, 2017Co-Authors: A Artikov, V Baranov, D Chokheli, Yu I Davydov, Y N Kharzheev, M. Bulavin, V. V. Glagolev, V. Kolomoets, Yu.a. Budagov, A SimonenkoAbstract:Detectors based on polystyrene scintillator strips with WLS fiber readout are widely used to register charged particles in many high-energy physics experiments. The fibers are placed into grooves or Holes along the strip. The detection efficiency of these devices can be significantly increased by improving the optical contact between the scintillator and the fiber by adding an optical filler into the groove/Hole. This work is devoted to the study of the light yield of a 5-m-long scintillator strip with a 1.2-mm-diameter Kuraray Y11(200)~MC WLS fiber inserted into the strip's co-Extruded Hole filled with synthetic silicon resin SKTN-MED(E). The light yield was studied using cosmic muons and a $^{60}Co$ radioactive source. Radiation hardness study of viscous fillers and short strip samples were performed on the IBR-2 pulsed research reactor of fast neutrons at JINR.
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optimization of light yield by injecting an optical filler into the co Extruded Hole of the plastic scintillation bar
Journal of Instrumentation, 2016Co-Authors: A Artikov, V Baranov, Ju Budagov, D Chokheli, Yu I Davydov, V Glagolev, Y N Kharzheev, V Kolomoetz, A Shalugin, A SimonenkoAbstract:The light yield of 2-m long Extruded scintillation bars (strips) are measured with cosmic muons as a function of the distance for different options of the light collection technique. The strips with a 2.6-mm diameter central co-Extruded Hole were made of polystyrene with the 2% PTP and 0.03% POPOP dopants at ISMA (Kharkov, Ukraine). It is shown that the optical transparent BC-600 or CKTN-MED(E) resin injected by a special technique into the co-Extruded Hole with a 1.0-mm or 1.2-mm Kuraray Y11 (200) MC wave-length shifting (WLS) fiber in it improves light collection by a factor of 1.6–1.9 against the ``dry'' case.
