Joint Institute for Nuclear Research
Congratulations to Elena Kravchenko and Anastasia Ivanova on Receiving a Patent!
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The JINR Department of Licensing and Intellectual Property announces that on 29 January 2021, the Joint Institute for Nuclear Research received the patent for the invention “Method for determining genetic predisposition to human longevity”. The authors are Elena Vladimirovna Kravchenko and Anastasia Evgenevna Ivanova.
The 2020 Bruno Pontecorvo Prize
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Photo from jinr.ruAt the 129th session held on 18−19 February in Dubna, the JINR Scientific Council approved the decision of the International Jury to award the 2020 Bruno Pontecorvo Prize to Professor NIWA Kimio (Nagoya University, Japan) for the development of the high-resolution nuclear emulsion technique, which led to identification of the tau neutrino and direct observation of tau neutrino oscillations.
An Interview with Dmitry Naumov on Channel 5
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Dmitry Naumov was shortly interviewed by Channel 5 about the BAIKAL-GVD project.
“Next exceptional steps of humankind in space are unthinkable without fundamental science. Novel devices, technologies, equipment and the very space race start with calculations and experiments in laboratories and scientific centres”, the presenter says.
In Lockdown 4: Chronicles and Comments
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The DLNP Group of Scientific Communication visited the Remote Operation Center (ROC-Dubna) of NOvA, a long-baseline neutrino experiment studying neutrino oscillations when a shaped particle beam is sent to the Far Detector located 810 km away from the source.
«Measurement of Parameters of the Electromagnetic Calorimeter Prototype of the COMET Experiment Using Cosmic Muons» by V. A. Kalinnikov and E. P. Velicheva
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At present, experiments are being prepared to search for muon-electron conversion, COMET at J-Park (Japan) and Mu2e at Fermilab (USA), where a segmented electromagnetic calorimeter (ECAL) is one of the main detectors. The main task of the ECAL in these experiments is to measure released energy when registering a 105 MeV electron with a high-energy resolution (better than 5%). The principal feature of these experiments are large angles of incidence of the registered electrons on the end surface of cells of the calorimeter located in a magnetic field.
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