Vikram Rathore
Post doc. vid Institutionen för fysik och astronomi; Tillämpad kärnfysik
- E-post:
- vikram.rathore@physics.uu.se
- Besöksadress:
- Ångströmlaboratoriet, Lägerhyddsvägen 1
- Postadress:
- Box 516
751 20 UPPSALA
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Publikationer
Senaste publikationer
- First experimental demonstration of the use of a novel planar segmented HPGe detector for gamma emission tomography of mockup fuel rods (2024)
- Segmented HPGe detectors for post-irradiation examination of nuclear fuel (2023)
- Experimental evaluation of the performance of a novel planar segmented HPGe detector for use in gamma emission tomography (2023)
- Performance evaluation of a novel gamma transmission micro-densitometer for PIE of nuclear fuel (2023)
- Multi-parameter Optimization of Gamma Emission Tomography Instruments for Irradiated Nuclear Fuel Examination (2023)
Alla publikationer
Artiklar
- First experimental demonstration of the use of a novel planar segmented HPGe detector for gamma emission tomography of mockup fuel rods (2024)
- Experimental evaluation of the performance of a novel planar segmented HPGe detector for use in gamma emission tomography (2023)
- Performance evaluation of a novel gamma transmission micro-densitometer for PIE of nuclear fuel (2023)
- Multi-parameter Optimization of Gamma Emission Tomography Instruments for Irradiated Nuclear Fuel Examination (2023)
- Calculation of Spatial Response of a Collimated Segmented HPGe detector for Gamma Emission Tomography by MCNP Simulations (2022)
- A computational methodology for estimating the detected energy spectra of the gamma-ray flux from irradiated nuclear fuel (2022)
- Geometrical optimisation of a segmented HPGe detector for spectroscopic gamma emission tomography (2021)
- Evaluation of gamma-ray transmission through rectangular collimator slits for application in nuclear fuel spectrometry (2021)
- Simulation of the response of a segmented High-Purity Germanium detector for gamma emission tomography of nuclear fuel (2020)
Böcker
Konferenser
- Coincidence spectroscopy for increased sensitivity in radionuclide monitoring (2022)
- Feasibility study of gamma-ray micro-densitometry for the examination of nuclear fuel swelling (2021)
- Gamma spectroscopy methodology for large amounts of environmental samples in Sweden 30 years after the Chernobyl accident (2020)
- Segmented HPGe Detector for Gamma Emission Tomography of Nuclear Fuel and Comparison with Existing Detectors (2019)