|
Fundamental and Applied Physics Research
with Relativistic Particle Beams
| Theme leader: | A.A. Baldin |
Participating countries and international organizations:
Armenia, Belarus, Chile, Russia, United Kingdom.
Project in the theme:
| Name of the project | Project Leaders | Project code |
||
| Laboratory Responsible from laboratories | Status | |||
| 1. | FLAP Fundamental&applied research with beams of relativistic accelerated electrons |
A.A. Baldin Deputy: Vit.V. Bleko |
02-1-1150-1-2025/2029
|
|
| VBLHEP | V.A. Alexandrov, V.I. Astakhov, E.G. Baldina, A.V. Beloborodov, Ver.V. Bleko, D.N. Bogoslovskiy, E.A. Bushmina, A.V. Butenko, S.A. Chetverikov, P.R. Khar'yuzov, E.A. Klevtsova, V.V. Kobets, D.S. Korovkin, V.A. Kukharev, A.B. Safonov, V.G. Shabratov, A.V. Skrypnik, S.Yu. Starikova, A.P. Sumbaev, Yu.A. Troyan |
| DLNP | V.V. Glagolev, M.I. Gostkin, D.L. Demin, M.A. Nozdrin, A.N. Fedorov, A.S. Zhemchugov |
| MLIT | E.K. Kuz'mina, M.M. Pashkova, V.S. Semashko, S.V. Semashko |
|
Brief annotation and scientific rationale: Expected results upon completion of the project: - development of fundamentally novel approaches to generation of electromagnetic radiation wiht controllable parameters based on the application of targets from functional materials;
- development of new nondestructive methods of charged particle beam diagnostics;
- development, testing and calibration of charged particle detectors and radiations for NICA SPD and MPD experiments:
- radiobiological studies with acclerated electron beams and secondary g quanta and neutrons:
- development of a pulsed neutron source with known parameters for investigations in the field of extreme states of matter:
- experiments on the search of hypothetic particles beyond the Standard Model.
|
|
|
Expected results of the project this year: Registration of GHz and THz radiation from active targets irradiated by relativistic electron beams. Creation of the time of flight test bench for registration of secondary neutrons. Testing of stilbene-based scintillators for n - g separation. |
|
| Name of the activity | Leaders | Implementation period |
|||
| Laboratory Responsible from laboratories | Status | ||||
| 1. | Processing, digitizing, and analysis of primary experimental information (films) obtained using bubble chambers | A.A. Baldin E.A. Klevtsova |
2025-2027
|
||
| VBLHEP | S.G. Arakelyan, E.G. Baldina, A.V. Belyaev, A.V. Beloborodov, Ver.V. Bleko, Vit.V. Bleko, D.N. Bogoslovsky, E.A. Bushmina, S.A. Chetverikov, D.S. Korovkin, N.E. Kukharev, V.A. Pukhaeva, O.V. Rogachevsky, A.B. Safonov, A.Yu. Troyan, Yu.A. Troyan |
||||
| MLIT | E.K. Kuz'mina, M.M. Pashkova, V.S.Rikhvitsky, V.S. Semashko, S.V. Semashko |
||||
|
Brief annotation and scientific rationale: Analysis of experimental data in the internediate energy range in relativistic physics based on the self-similarity approach and application of the properties of Lobachevsky geometry for description of multiple particle production.
Search and study of new phenomena in the conditions of registration of «soft processes» of particle production with high spatial and momentum resolution which is inavailable in modern electronic experiments.
Expected results at the end of the activity: Preparation of the educational program for students qualifying for the NICA project.
Comparison of the results obtained using the bubble chambers and the simulations with modern models. Development of recommendations for the strategy of experimental research at the accelerator complex NICA.
Publication of the results of analysis of bubble chamber data.
Expected major results in the current year: Creation of the electronic data base from scanned photofilms and processes stereo images. Organization of the procedure of storage and processing of the obtained images using the JINR LIT capacities.
More precise determination of the results obtained using the 2 m and 1 m hydrogen bubble chambers.
|
|||||
| 2. | Investigation of deep subthreshold processes, applied and educational programs at MARUSYA setup |
A.A. Baldin D.S. Korovkin |
2025-2027
|
||
| VBLHEP | V.A. Arefiev, S.V. Afanasiev, V.I.Astakhov, E.G. Baldina, S.N. Bazylev, A.I. Berlev, A.V. Beloborodov, Ver.V. Bleko, Vit.V. Bleko, D.N. Bogoslavsky, E.A. Bushmina, S.A. Chetverikov, P.R. Kharyuzov, E.A. Klevtsova, V.A. Kukharev, A.B.Safonov, S.Yu. Starikova, A.P. Sumbaev, A.Yu. Troyan, Yu.A. Troyan |
||||
| BLTP | S.G. Bondarenko |
||||
| MLIT | V.V. Korenkov, E.K. Kuz'mina, M.M. Pashkova, V.S. Semashko, S.V. Semashko |
||||
| DLNP | A.N. Fedorov |
||||
|
Brief annotation and scientific rationale: Performing correlation experiments with registration of groups of particles in the final state with one cumulative particle. Studies in the pre-cumulative and cumulative regtions with extracted polarized beams.
Expected results at the end of the activity: New upgraded facility supplemented with detectors for correlation experiments: multichannel gamma spectrometer, multiplicity detector, neutron detector.
Expected major results in the current year: Reconstruction of the experimental zone of the spectrometer channel at F4. Creation of the new data acquisition system of the facility. Putting in operation of track detectors. Development and creation of the neutron detector. Testing of the Cherenkov detector. Testing of the prototype detectors for the SPD experiment. Continuation of experiments at extracted beams of Nuclotron-N wtih maximum available intensity. Development of the software for simulation and processing of experimental data.
|
|||||
| 3. | Neutron resonance spectroscopy | A.A. Baldin V.N. Shvetsov |
2025-2027
|
| VBLHEP | V.I. Astakhov, E.G. Baldina, A.V. Beloborodov, Ver.V. Bleko, Vit.V. Bleko, D.N. Bogoslavskiy, E.A. Bushmina, S.A. Chetverikov, P.R. Kharyuzov, E.A. Klevtsova, V.A. Kukharev, A.B. Safonov, S.Yu. Starikova, A.P. Sumbaev, Yu.A. Troyan |
||
| MLIT | S.V. Semashko |
| FLNP | N.V. Rebrova |
|
Brief annotation and scientific rationale: Development and study of the methods of nondestructive inspection of samples and materials using thermal and epithermal neutrons. A neutron image detector with high spatial (20-50 mkm) and time (50-100 ns) resolution will be developed in the framework of development of methods of real-time neutron tomography with thermal and resonance neutrons. This study is aimed at a broad range of fast processes in the field of the physics of extreme states of matter and material research. This method will allow one to study the physical and chemical composition of machine-building materials, gaseous cavities inside structural materials with high atomic mass. Another important advantage of neutron radiography is the possibility of visualization of hydrogen-containing substances in a metal matrix. Expected results at the end of the activity: Study of the feasibility of development of low-current power supply elements based on decay of unstable isotopes produced using a neutron source. Expected major results in the current year: Experimental determination of an optimal configuration of the experiment design to achieve the required measurement precision. Improvement of methods for registration of parameters of neutron resonances. Measurement of experimental spectra of neutrons from various materials irradiated by accelerated electron beams. |
|
| Country or International Organization | City | Institute or laboratory |
| Armenia | Yerevan | IAPP NAS RA |
| YSU | ||
| Belarus | Minsk | INP BSU |
| Chile | Santiago | UNAB CTEPP |
| Russia | Belgorod | BelSU |
| Erendi Vakuum | ||
| Dubna | IAS "Omega" | |
| IPTP | ||
| Gatchina | NRC KI PNPI | |
| Moscow | LPI RAS | |
| Marafon | ||
| MIREA | ||
| Saint Petersburg | SPbSPU | |
| Sarov | RFNC-VNIIEF | |
| Tomsk | TPU | |
| Vladikavkaz | VTC "Baspik" | |
| United Kingdom | London | JAI@RHUL |
