Joint Institute for Nuclear Research
«The T2K and HyperKamiokande Experiments with the Upgraded Near Neutrino Detector ND280» by Yury Kudenko (INR RAS)
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- Category: Seminars
This report briefly describes the status, results and perspectives of T2K and HyperKamiokande, the long-baseline experiments. An emphasis is put on the upgraded near neutrino detector ND280, its physics program and importance for oscillation measurements. The recent progress and prospects in search of CP violation and measurements of the CP violating phase in neutrino oscillations in current and future accelerator experiments are also discussed.
Current vacancies at the Dzhelepov Laboratory
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- Category: News
Dear colleagues!
New vacancies are announced:
- Projects for enhancing Russian-German research cooperation in the field of Astroparticle Physics
- Opportunities for postgraduate studies in Non-Accelerator Neutrino Physics and Astrophysics
All the vacancies are posted in the section “ABOUT US”/ Careers.
Congratulations from JINR Director on the 65th Institute’s Anniversary
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- Category: News
Dear friends, dear colleagues, members of the international Dubna family,
the Joint Institute for Nuclear Research is celebrating its 65th anniversary this year and puts yet another milestone on the long path of studying fundamental properties of matter by humanity.
JINR was established by the founding states as a scientific and research locomotive driven by the talents and energy of researchers from all over the world to learn the laws of Nature. Over these decades, the world and its geography have changed, but JINR has maintained and strengthened in this dynamic situation its position as one of the leading international scientific centres of the world.
“Physics at Future \(e^+e^−\) Colliders. The ARIeL Project in 2019-2021” by Igor Boyko and Lidia Kalinovskaya
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- Category: Seminars
The report on the ARIeL project for 2019-2021 will be presented. The main goal of this project is to prepare physics research for future high-energy electron-positron colliders.
The main result of the project is the release of Monte Carlo generator ReneSANCe of unweighted events at the level of complete one-loop computations.
The effects of radiation corrections have been estimated for various processes in the CLIC, ILC, FCC-ee and CEPC experiments.
“Monte Carlo Tool SANCphot for the Polarized γγ Collision Simulation” by Andrey Sapronov
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- Category: Seminars
Our study of theoretical uncertainties for the four bosons processes at the one-loop level was presented, including the case of the transverse polarization. The calculations are based on the helicity amplitude approach for 4-boson interactions with massive fermion loops. The obtained predictions are equally suitable for a wide range of energies and for arbitrary, including extreme, regions of the phase volume. Uncertainty estimates are received using the new Monte Carlo tool SANCphot for the γγ collision simulation with final states γγ, γZ, ZZ adapted for polarized photon beams.
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