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The Institute of Nuclear Physics

Ministry of Energy of the Republic of Kazakhstan

PCF
Implementation period: 2021-2023
BR10965191 – Complex research in nuclear and radiation physics, high-energy physics and cosmology for development of the competitive technologies

Relevance

During implementation of the program, it is planned to obtain new knowledge about the fundamental properties and characteristics of strong, weak and gravitational interactions necessary for the creation of the Great Theory. Development of new experimental and theoretical methods, software for obtaining new constants in nuclear and radiation physics, high energy physics and cosmology. New knowledge about the cross-sections for exotic stable and radioactive nuclei formation will serve as the basis for development of the new technologies for radioisotopes production for industrial and medical applications. New experimental data, characterizing the conditions for appearance of the phase transformation wave and, as a consequence, the anomalously high plasticity of reactor steels irradiated with neutrons to high damaging doses, are necessary to develop the recommendations for safe operation of the IV generation reactors. New developments in the technology of ion-plasma formation of superconducting coatings on a flexible carrier will create the prerequisites for development of the industrial technology for formation of the long super-conducting tapes. This will enable the Republic of Kazakhstan to establish its own production of high-tech products demanded in the world – the superconducting magnetic systems for industrial and medical applications. Study of the effects of cosmic ray fluxes on the atmosphere and magnetic fields of our planet, and their role in the observed process of global warming on the Earth, which is extremely important for the long-term forecast of changes in global temperature on the Earth. New developments of the mechanisms for integrating the sources of storage and processing of big data will be the basis for further development of the information technology in Kazakhstan. Training of highly qualified world-class personnel in the area of natural sciences.

Aim

The purpose of the research is the development of new experimental and theoretical methods, software for obtaining new constants in nuclear and radiation physics, high energy physics and cosmology for the development of competitive technologies as part of the implementation of the Roadmap for international cooperation between the Government of the Republic of Kazakhstan and the European Center for Nuclear Research, preparation nuclear competent personnel for Kazakhstan.

Expected results

New data on the yields of exotic radioactive nuclei formation for nucleosynthesis in stars and radioisotopes production, to replenish the IAEA nuclear database “EXFOR”.

New experimental data on the anomalously high plasticity of reactor steels irradiated with neutrons to high damaging doses, which makes it possible to extend the service life of the operating nuclear power plants.

Software for automated processing of nuclear track images in phosphate glass after etching. Parametric dependence of the ion charge according to the measured characteristics of the tracks.

The procedure for forming of the various superconducting coatings on a flexible carrier and preparation of the test samples of superconducting coatings of various compounds on a flexible carrier.

The calculated values of azimuthal angles and pseudo-rates of events produced at the Hadron-44 and INKA-55 installations. The algorithms for testing the technique of the two-particle correlation function.

Establishment of a possible relationship between the changes in cosmic ray fluxes, the level of ionization in the earth’s atmosphere at different latitudes and variations in global temperature on the Earth.

Model of the effective potential of interaction of the quark-gluon plasma particles. Data on the influence of nonequilibrium effects on heavy quarks in the quark-gluon plasma.

The model of dark matter that correctly describes the features of the large-scale structures of the Universe in the framework of the advanced models of gravity.

Development of the transition of hadrons to the deconfinement state of the quark-gluon plasma and the results of numerical calculations of the effect of viscosity and nonlinearity on the experimentally observed suppression of hadron jets with large transverse momenta.

New knowledge about the experimental apperance of the phase transition of matter from the hadronic state to the quark-gluon plasma based on the detailed studies of dynamic correlations and fluctuations in the distributions of secondary particles formed in the interactions of nuclei of various degrees of asymmetry.

Obtaining of new regular solutions describing the objects with different symmetries (domain walls, cosmic strings, wormholes, stars) in the framework of the modified theories of gravity.

Development of the algorithms and programs for events reconstruction based on data from track detectors using deep neural networks.

Software of Local data center CERN-JINR-INP-KazNU for management decisions.

Competent young specialists in nuclear and radiation physics, high energy physics and cosmology.

Achieved results

The research results and their novelty: obtaining of new experimental and calculated differential cross-sections for the reactions 13С(3Не,α)12С, 9Ве(13С,13С)9Ве; determination of the influence of the neutron irradiation parameters on formation and development of the phase transformation wave in austenitic reactor steels; comparison of the models of deep neural networks for reconstruction of events from the data of track detectors of the nuclear experiments; assessment of the contributions of fluxes of ionizing particles to atmospheric processes; development of the algorithms for distributed processing of large data arrays for the data processing Local Center; working out of the new technique for producing the coatings for reliable synthesis of superconducting intermetallic compounds; determination of the dispersion relation for waves at the boundary of a quark-gluon plasma; identification of the criteria for assessing the degree of peripherality of the nucleus-nucleus interaction; modeling of the phase transitions of quarks into hadrons, then of the mixed quark and hadronic phases into quark-gluon plasma and, finally, hadronization of the latter; determination of the models of axions as dark matter; obtaining of boundary and asymptotic conditions and finding the solutions describing the domain walls, cosmic strings, wormholes, stars; training of the competent young specialists in nuclear and radiation physics, high energy physics and cosmology.

Names of members of the research group (position, degree) with their identifiers (Scopus Author ID, Researcher ID, ORCID, if any) and links to the corresponding profiles

1 Program manager – Burtebayev Nassurlla, Doct. Phys. Math. Sc., prof., head of lab.

Scopus Author ID – 6602650804, ORCID ID -0000-0002-4715-9604

https://www.scopus.com/authid/detail.uri?authorId=6602650804

https://orcid.org/0000-0002-4715-9604

2 Zhakanbayev Eldar Askhatovich, Cand. Phys. Math. Sc., head of lab.

Scopus Author ID – 7801409744, ORCID ID -0000-0001-9133-5487

https://www.scopus.com/authid/detail.uri?authorId=7801409744

https://orcid.org/0000-0001-9133-5487

3 Sadykov Turlan Khamzinovich, Doct. Phys. Math. Sc., prof., head of lab.

Scopus Author ID – 6701423748, ORCID ID -0000-0002-4349-4616

https://www.scopus.com/authid/detail.uri?authorId=6701423748

https://orcid.org/0000-0002-4349-4616

4 Morzabayev Aidar Kaparovich, Cand. Phys. Math. Sc., docent

Scopus Author ID – 26531512300

https://www.scopus.com/authid/detail.uri?authorId=26531512300

5 Ramazanov Tlekkabul Sabitovich, Doct. Phys. Math. Sc., Academician of NAS RK, prof., Chief Researcher

Scopus Author ID – 6701328029

https://www.scopus.com/authid/detail.uri?authorId=6701328029

6 Abishev Medeu Yerzhanovich, Doct. Phys. Math. Sc., prof., head of department

Scopus Author ID – 26530759900, ORCID ID -0000-0003-3602-6934

https://www.scopus.com/authid/detail.uri?authorId=26530759900

https://orcid.org/0000-0003-3602-6934

7 Dzhunushaliyev Vladimir Dzhumakadyrovich, Doct. Phys. Math. Sc., Prof.

Scopus Author ID – 55887756300, ORCID ID -0000-0001-9479-5606

https://www.scopus.com/authid/detail.uri?authorId=55887756300

https://orcid.org/0000-0001-9479-5606

8 Mansurova Madina Esimkhanovna , Cand. Phys. Math. Sc., docent, head of department

Scopus Author ID – 56617164900, ORCID ID -0000-0002-9680-2758

https://www.scopus.com/authid/detail.uri?authorId=56617164900

https://orcid.org/0000-0002-9680-2758

9 Lebedev Igor Aleksandrovich, Doct. Phys. Math. Sc., head of lab.

Scopus Author ID – 35986742800, ORCID ID -0000-0002-7562-9925

https://www.scopus.com/authid/detail.uri?authorId=35986742800

https://orcid.org/0000-0002-7562-9925

10 Temiraliyev Abzal Tursynkhanovich, Cand. Phys. Math. Sc., Senior researcher

Scopus Author ID – 57188694124, ORCID ID -0000-0003-2952-1451

https://www.scopus.com/authid/detail.uri?authorId=57188694124

https://orcid.org/0000-0003-2952-1451

11 Polukhina Natalia Gennadyevna, Doct. Phys. Math. Sc., head of lab.

Scopus Author ID – 6603355151

https://www.scopus.com/authid/detail.uri?authorId=6603355151

12 Tsai Kira Viktorovna, Doct. Phys. Math. Sc., docent, leading researcher

Scopus Author ID – 7201565799, ORCID ID -0000-0003-2817-9674

https://www.scopus.com/authid/detail.uri?authorId=7201565799

https://orcid.org/0000-0003-2817-9674

13 Korenkov Vladimir Vasilyevich, Doct. Tech. Sc., Director of LIT

Scopus Author ID – 57193414565, ORCID ID -0000-0002-2342-7862

https://www.scopus.com/authid/detail.uri?authorId=57193414565

https://orcid.org/0000-0002-2342-7862

14 Belisarova Farida Beksultanovna, Cand. Phys. Math. Sc., docent, deputy head of the department

Scopus Author ID – 57189071061

https://www.scopus.com/authid/detail.uri?authorId=57189071061

list of publications (with links to them) and patents

List of published works for 2021

In foreign publications:

1  Nassurlla Marzhan, Burtebayev N., Karakozov B.K., Sakuta S.B., Boztosun I., Amangeldi N., Morzabayev A.K., Yergaliuly G., Alimov D.K., Burtebayeva J., Nassurlla Maulen., Mauyey B., Kucuk Y., Hamada Sh., Sabidolda A., Khojayev R. New measurements and analysis of elastic scattering of C-13 by Be-9 nuclei in a wide energy range // European Physical Journal A. – 2021. – Vol. 57, Iss.7. – P.231. – DOI: 10.1140/epja/s10050-021-00539-z – WoS: Impact Factor – 3.043, Q2. – Scopus: Percentile 76, CiteScore – 4.5, SJR – 1.232.

https://epja.epj.org/articles/epja/abs/2021/07/10050_2021_Article_539/10050_2021_Article_539.html

2  Dzhunushaliev V. and Folomeev V. Static and collapsing configurations supported by the spinor fluid // Physical Review D. – 2021. – Vol. 103, Iss.12 – P.123017. – DOI: 10.1103/PhysRevD.103.123017. – WoS: Impact Factor – 5.296, Q1. – Scopus: Percentile 95, CiteScore – 8.9, SJR – 1.887. https://journals.aps.org/prd/abstract/10.1103/PhysRevD.103.123017

3  Dzhunushaliev V. and FolomeevV. Masking singularities in Weyl gravity and Ricci flows // European Physical Journal С. – 2021. – Vol.81, Iss.5. P. – 387. – DOI: 10.1140/epjc/s10052-021-09188-4. – Scopus: Percentile 92. CiteScore – 8.3, SJR – 1.938. https://epjc.epj.org/articles/epjc/abs/2021/05/10052_2021_Article_9188/10052_2021_Article_9188.html

4  DzhunushalievV., Folomeev V.and Tlemisov A. Linear energy density and the flux of an electric field in Proca tubes // Symmetry-Basel – 2021. – Vol.13, Iss. 4. – P.640. – DOI: 10.3390/sym13040640. – WoS: Impact Factor – 2.713, Q2. – Scopus: Percentile 66. CiteScore – 3.4, SJR – 0.385. https://www.researchgate.net/publication/350829753_Linear_Energy_Density_and_the_Flux_of_an_Electric_Field_in_Proca_Tubes

5  Dzhunushaliev V., Burtebayev N., Folomeev V.N., Kunz J., Serikbolova A. and Tlemisov A. Mass gap for a monopole interacting with a nonlinear spinor field // Physical Review D. – 2021. – Vol. 104, Iss. 5. – P.056010. – DOI: 10.1103/PhysRevD.104.056010. – WoS: Impact Factor – 5.296, Q1. – Scopus: Percentile 95, CiteScore – 8.9, SJR – 1.887. https://journals.aps.org/prd/abstract/10.1103/PhysRevD.104.056010

6  Medeu Abishev, Nurzada Beissen, Farida Belissarova, Kuantay Boshkayev, Aizhan Mansurova, Aray Muratkhan, Hernando Quevedo,Saken Toktarbay Approximate perfect fluid solutions with quadrupole moment // International Journal of Modern Physics D. – 2021. – Vol. 30, No. 13 – P.056010. DOI: 10.1142/S0218271821500966 WoS: Impact Factor – 2.154, Q2. – Scopus: Percentile 95, CiteScore – 8.9, SJR – 0.820. https://www.worldscientific.com/doi/abs/10.1142/S0218271821500966

7  Korlan Argynova, Nassurlla Burtebayev,  Mikhail Mikhailovich Chernyavsky, Alexey Alekseevich Gippius, Lyudmila Anatolyevna Goncharova, Nina Sergeevna Konovalova, M. Nassurllа, Natalia Gennadievna Polukhina, Zhakypbek Turlanovich Sadykov Identification of multicharged ions using phosphate glass detectors // Nuclear Inst. and Methods in Physics Research, A, accepted for publication

In domestic publications:

1  Temiraliev А., Serikkanov A., Burtebayev N., Lebedev I., Fedosimova A., Mazhit Z. Nonlinear dynamics of parton distribution functions: the limit of multiple hadron production and the regime of dynamically determined chaos // Abstracts III International Scientific Forum “Nuclear Science and Technologies”, dedicated to the 30-th anniversary of Independence of the Republic of Kazakhstan. – Almaty, Republic of Kazakhstan, 20-24 September, 2021. – p. 32-33.

2  Burtebayev N., Janseitov D., Karakozov B.K., Nassurlla Maulen, Sakuta S.B., Nassurlla Marzhan, Alimov D., Burtebayeva J., Sabidolda A., Kemper K.W., Hamada Sh. Study of the reaction 13C(3He,α)12C at energies of 50 and 60 MeV // Abstracts III International Scientific Forum “Nuclear Science and Technologies”, dedicated to the 30-th anniversary of Independence of the Republic of Kazakhstan. – Almaty, Republic of Kazakhstan, 20-24 September, 2021. – p. 43.

3  Tulekov Ye.A., Morzabaev А.К., Makhmutov V.S., Yerkhov V.I. Variations of cosmic rays according to observations in March 2021 // Abstracts III International Scientific Forum “Nuclear Science and Technologies”, dedicated to the 30-th anniversary of Independence of the Republic of Kazakhstan. – Almaty, Republic of Kazakhstan, 20-24 September, 2021. – p.48-49.

4  Кореньков В., Буртебаев Н. , Мажитова Е. и Сатышев И. Анализ моделей и алгоритмов для распределенной обработки больших массивов данных в области ядерной и радиационной физики // Тезисы III Международного научного форума «Ядерная наука и технологии», посвященный 30-летию Независимости Республики Казахстан. – Алматы, Республика Казахстан, 20-24 сентября, 2021. – С.51.

5 Идрисова Т.К., Садыков Т.Х., Рябов В.А., Пискаль С., Жуков В.В. Комплексная установка для регистрации широких атмосферных ливней Адрон-55 // Тезисы III Международного научного форума «Ядерная наука и технологии», посвященный 30-летию Независимости Республики Казахстан. – Алматы, Республика Казахстан, 20-24 сентября, 2021. – С.66.

6 Мансурова М.Е., Ососков Г.А., Жунусова Ж.Х., Гончаров П.В., Резвая Е.П., Шоманов А.С. Оптимальная параметризация траекторий элементарных частиц в задаче их реконструкции для вершинного детектора эксперимента SPD NICA // Тезисы III Международного научного форума «Ядерная наука и технологии», посвященный 30-летию Независимости Республики Казахстан. – Алматы, Республика Казахстан, 20-24 сентября, 2021. – С.72.

7  Федосимова А.И., Лебедев И.А., Ибраимова С.А., Дмитриева Е.А., Бондарь Е.А Коллективное образование вторичных частиц во взаимодействиях ассиметричных ядер // Тезисы III Международного научного форума «Ядерная наука и технологии», посвященный 30-летию Независимости Республики Казахстан. – Алматы, Республика Казахстан, 20-24 сентября, 2021. – С.65.

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