List of projects available for Stage 2 (07-27 July)
JINR University Centre (UC)
| № | Supervisor | Name of the project | |
| 1. | D. Belozerov |  |
Electronics hands-on training |
| 2. | R. Pivin M. Nozdrin |
|
Controls & Vacuum hands-on training |
| 3. | K. Verlamov | |
RF technology hands-on training |
| 4. | V. Vicha K. Gikal |
|
Pixel detector MX-10 |
Flerov Laboratory of Nuclear Reactions (FLNR)
| № | Supervisor | Name of the project | |
| 1. | A. Artyukh | |
Study of the transfer and fragmentation reactions near Fermi energy |
| 2. | A. Artyukh B. Erdemchimeg |
|
Total reaction cross sections for 6,8He and 8,9Li nuclei at energies of (25-45) A MeV on natAl and natPb |
| 3. | A. Swiercz | |
Production of radioactive ion beams and light exotic nuclei study at ACCULINNA-2 separator |
| 4. | G. Kaminski | |
β-delayed charged particle spectroscopy by the OTPC technique and practical training with gas systems for gaseous detectors |
| 5. | V. Rachkov | |
Study of heavy-ion elastic scattering within classical and quantum optical model |
| 6. | L. Krupa | |
Determination of masses of the super heavy elements in the experiments on synthesis of 112 and 114 elements using the reactions 48Ca+242Pu and 48Ca+244Pu |
| 7. | L. Krupa | |
Systematic determination of cross sections for the production of proton-rich evaporation residues near the neutron N=126 shell closure in fusion reactions |
| 8. | L. Krupa | |
Production and spectroscopic investigation of new neutron-rich isotopes near the neutron N=126 shell closure using the multinucleon transfer reactions |
| 9. | L. Krupa | |
Monte-Carlo simulation of fusion and multinucleon transfer reactions in the MEDIPIX detector using the GEANT4 |
| 10. | L. Krupa | |
Development and testing of a new cryogenic gas-filled catcher for the MASHA |
| 11. | Yu. Sobolev | |
Single-crystal gamma scintillation spectrometer |
| 12. | E. Kozulin K. Novikov |
|
Measurement of mass-energy distributions of fission fragments using the time-of-flight method |
| 13. | A. Svirikhin | |
Neutron emission from spontaneous fission of heavy elements at FLNR |
| 14. | E. Gazeeva | |
Neutron spectrometer for experiments with radioactive beams on the ACCULINNA-2 fragment separator |
| 15. | A. Olejniczak | |
Swift heavy-ion irradiation effects in carbon nanostructures |
| 16. | W. Piatek P. Szymkiewicz |
|
Automation and data acquisition in a physical laboratory - problems and available solutions |
| 17. | N. Aksenov | |
Radiochemical methods in nuclear data research for radionuclides production |
Frank Laboratory of Neutron Physics (FLNP)
| № | Supervisor | Name of the project | |
| 1. | M.-L. Craus | |
Transport phenomena and magnetic/crystalline structure of manganites |
| 2. | Sh. Zeinalov | |
Prompt fission neutron investigation with Frisch-gridded twin back-to-back ionization chamber |
| 3. | Sh. Zeinalov O. Sidorova |
|
Position sensitive twin-ionization chamber for fission fragment spectroscopy and neutron imaging |
| 4. | I. Bobrikov S. Sumnikov |
|
Precision investigation of modern crystalline materials by neutron diffraction method |
| 5. | M. Frontasyeva W. Badawy |
|
Neutron activation analysis for life sciences |
Dzhelepov Laboratory of Nuclear Problems (DLNP)
| № | Supervisor | Name of the project | |
| 1. | I. Alexandrov K. Afanasyeva |
|
PCR-assay of intragenic DNA lesions induced by ionizing radiation at the vestigial gene of Drosophila melanogaster |
| 2. | E. Kravchenko A. Rusakovich |
|
Genome “dactyloscopy” (DNA finger-printing) and gene expression: Polymerase Chain Reaction (PCR) in action |
| 3. | K. Siemek | |
Positron annihilation spectroscopy in materials structure studies |
| 4. | R. Dvornicky | |
Charge Calibration of the Optical Modules and MC simulations for the Baikal-GVD detector |
Bogoliubov Laboratory of Theoretical Physics (BLTP)
| № | Supervisor | Name of the project | |
| 1. | O. Solovtsova A. Sidorov |
|
QCD analysis of the DIS structure functions based on inverse Mellin transform |
| 2. | Yu. Shukrinov | |
Computer simulation of tunneling characteristics of superconducting nanostructures |
| 3. | A. Arbuzov | |
Theoretical description of quasi-elastic neutrino-nucleon scattering |
| 4. | Ya. Shnir | |
Numerical methods in theory of topological solitons |
| 5. | M. Hnatic R. Remecky |
|
Quantum field theory methods in non-linear stochastic dynamics |
| 6. | D.E. Alvarez-Castillo | |
Constraining the Neutron Star Mass and Radius Relation |
| 7. | |
Scalar field dynamics in black hole backgrounds |
Laboratory of Radiation Biology (LRB)
| № | Supervisor | Name of the project | |
| 1. | T. Bulanova E. Kulikova |
|
Detection and study of the formation and repair of DNA double-strand breaks after irradiation |
| 2. | B. Munkhbaatar B. Lkhagvaa |
|
Computer Modeling of Radiation Biophysics using the Geant4 |
| 3. | |
Chromosome analysis for calibration curves creation for potential retrospective dose estimation |
Veksler and Baldin Laboratory of High Energy Physics (VBLHEP)
| № | Supervisor | Name of the project | |
| 1. | E. Kokoulina V. Nikitin |
|
Puzzles of multiplicity |
| 2. | E. Kokoulina V. Nikitin |
|
Soft photons at U-70 and Nuclotron |
| 3. | P. Zarubin | |
BECQUEREL project for juniors |
| 4. | K. Roslon | |
Generation and analysis of events for pPb collisions using the MC generator - Therminator 2 |
| 5. | K. Roslon | |
Temperature measurement system for electronic devices based on the PXI configuration for the Slow Control system at the TOF-MPD detector |
| 6. | K. Roslon | |
Temperature influence of the TOF detector and cooling systems (aquatic and aerial) on the accuracy of particle detection in the detector |
| 7. | M. Peryt | |
Robots in great physical experiments: Measuring Robot Balancing Arm Assembly |
| 8. | M. Peryt | |
Robots in great physical experiments: Rover Vehicle Measuring Robot |
| 9. | M. Peryt | |
Robots in great physical experiments: Self-Balancing Measuring Robot |
| 10. | M. Bielewicz | |
Cosmic ray measurements using such detectors in huge physical experiments as LHC or NICA |
| 11. | M. Bielewicz | |
Experimental measurement of the level of transmutation and neutron flux density in subcritical nuclear reactors ADS |
| 12. | M. Bielewicz | |
Multipoint temperature measurement as a way to measure the energy produced inside an ADS reactor |
| 13. | V. Ladygin | |
Study of the analysing powers in deuteron-proton elastic scattering at Nuclotron |
Laboratory of Information Technologies (LIT)
| № | Supervisor | Name of the project | |
| 1. | |
High-performance computing for scientific and applied problems | |
| 2. | B. Saha | |
Numerical and analytical calculations in gravitation and cosmology |
| 3. | Yu. Kalinovsky | |
Modeling of the behavior of particles in hot nuclear matter |
| 4. | O. Derenovskaya | |
ROOT package in High Energy Physics tasks |
| 5. | G. Ososkov | |
Machine learning applications for plant disease detection |
| 6. | I. Pelevanyuk | |
Advanced system administration for fast server configuration |
| 7. | N. Kutovskiy | |
Advanced computing technologies (Grid, Cloud, HPC). Practical usage of EMI, OpenNebula middleware and key parallel programming technologies |
| 8. | I. Sarkhadov | |
Numerical modeling of thermal processes arising in the materials under exposure to pulsed ion beams and single high energy ions |
| 9. | O. Chuluunbaatar Yu. Popov |
|
Calculation of the strong field approximation term for the hydrogen atom excitation in intensive laser field |
| 10. | Gh. Adam M. Dima |
|
Applied C and C++ in Physics |
