01-3-1137-2019/2023
 
Priority: 1
   
Status: In-progress
 
Theory of Complex Systems and Advanced Materials

    

Leaders:     V.A. Osipov
A.M. Povolotskii


Participating Countries and International organizations:
Armenia, Australia, Austria, Azerbaijan, Belarus, Belgium, Brazil, Bulgaria, Canada, Czech Republic, Denmark, Ecuador, Egypt, France, Germany, Hungary, India, Iran, Italy, Japan, Mongolia, New Zealand, Poland, Republic of Korea, Romania, Russia, Serbia, Slovakia, Slovenia, South Africa, Spain, Switzerland, Taiwan, Ukraine, United Kingdom, USA, Uzbekistan, Vietnam.


Issues addressed and main goals of research:
Development of analytical and numerical methods for studying complex many-body systems that are of current interest in modern condensed matter physics, the development of mathematical models of these systems and the identification of universal laws on the example of studied models. Analysis of both lattice and field-theory models of equilibrium and non-equilibrium statistical systems and modeling of a wide class of new materials, including nanostructured materials, which are of great practical importance. The concepts of scaling and universality allow one to go beyond the model approach and to apply the results obtained to broad classes of phenomena studied in the physics of condensed matter. The results obtained will be used in carrying out experimental studies of condensed matter at JINR. It is important to note the markedly growing interdisciplinary nature of research, where condensed matter physics and statistical physics closely intersect with atomic and nuclear physics, particle physics, mathematical physics, astrophysics, and biology.

Expected main results in the current year:

  • Development of new methods for studying structural properties of complex systems at nano and micro scales using the small-angle scattering technique. Description of magnetodielectric and magnetorheological effects in smart composite materials.

    Modeling of vacancy defects with impurities generated by irradiation with neutrons or heavy ions in HfCxN1-x and graphen layers on wolfram slabs for the purpose of comparison with the quantities measured by positron annihilation spectroscopy.

    Construction of the theoretical magnetic phase diagram and the spin-wave spectrum of rare-earth magnets YbMgGaO4 and YbZnGaO4 in a magnetiс field and comparison with inelastic neutron scattering data.

    Calculation of quantum corrections to the spin-wave spectrum of strongly spin-orbit coupled insulator in a magnetic field with in-plane anisotropic interactions.

    Calculation of magnon spectral line broadening in a honeycomb ferromagnet with Dzyaloshinskii-Moriya interactions.

    Calculation of the electronic spectrum in strongly-correlated  electronic systems within the  t-J model. Study of the influence  of short-range antiferromagnetic correlations on the transformation of the Femi surface topology. Comparison of the obtained results with experiments in hole-doped cuprates.

    Calculation of the electronic spectrum and superconductivity  temperature as a function of doped holes in the extended t – J model where the intersite Coulomb repulsion  and the electron-phonon interaction are taken into account.

    Development of new methods for regulating spin reversal in magnetic nanomaterals.Construction of a theory of statistical systems with several coexisting symmetries.

  • Investigation of dynamics of collective excitations in the Josephson superconductor-ferromagnet-superconductor nanostructures and their  manifestation  in the current-voltage characteristics of these systems.

    Calculation of  the electron mobility and  conductivity of polycrystalline  graphene. 

    Investigation of the electron transport in nanostructures based on modern materials such as transition metal chalcogenides and graphene, taking into account the effect of scattering by phonons and the role of the surface.

    Investigation of electronic transport properties of molybdenum disulphide monolayer with randomly distributed and periodic antidots in the band and hopping transport regimes.

    Investigation of a novel type of superconductivity that emerges in the 3-band Hubbard model on the lattices featuring a topological flat band. Application of this approach to account for high-temperature superconductivity in CuO2 geometry.

  •  Finding of connections between the 6j-symbols of the group SL(2,C) with the degenerate cases of superconformal indices of four-dimensional field theories and partition functions of three-dimensional field theories on curved manifolds.

    Construction of superconformal indices related to field theories on lens space.

    Description of stochastic models of interacting particles with pairing on a one-dimensional lattice. Construction of  the Green function and  characterization of limiting hydrodynamics and characteristic fluctuations with the help of the Bethe ansatz and free-fermion techniques.

    Description of  the statistics of loops in the critical percolation model on a cylinder using techniques based on the Temperley-Lieb algebra representations and the Bethe ansatz.

    Finding  of stochastic  dualities in the models of interacting particles based on the  properties of the Hecke algebras and their representations.

    Investigation of "entangled states” of a complex quantum system when the entire system is in a well-defined state but subsystems are not.

    Cosntruction of the quasi-oscillator representation of linear quantum groups: construction of the finite-dimensional representations and investigation of the Hopf structures.

    Finding of polynomial solutions of the finite-difference Knizhnik-Zamolodchikov equations related to the diffusion-annihilation stochastic processes. Description of duality functions for these processes.

 

 

List of Activities
  Activity or experiment Leaders
 
    Laboratory or other
  Division of JINR
 Main researchers
1. Complex materials

E. Anitas
N.M. Plakida
 
  BLTP
 
A.Yu. Cherny,  A.A. Donkov,  A.L. Kuzemsky,  Tung Nguen Dan,  A.A. Vladimirov,  V.I. Yukalov,  V.Yu. Yushankhai
  FLNP
 
V.L. Aksenov,  A.M. Balagurov,  A. Islamov,  D.P. Kozlenko,  A.I. Kuklin,  E.P.Popov
  LIT
 
L.A. Syurakshina,  E.P. Yukalova
2. Nanostructures and nanomaterials
V.A. Osipov
E.A. Kochetov
 
  BLTP
 
A.V. Chizhov,  A.A. Glebov,  I.D. Ivantsov,  V.L. Katkov,  D.V. Kolesnikov,  S.E. Krasavin,  K.V. Kulikov,  M. Maiti,  I.R. Rachmonov,  O,  ,  Sadykova,  Yu.M. Shukrinov
  LIT
 
I. Sarhadov,  S.I. Serdyukova,  E.B. Zemlianaya
  LRB
 
A.N. Bugay
  FLNR
 
A. Olejniczak
3.

Mathematical models of statistical physics of complex systems

A.M. Povolotsky  
  BLTP
 
A.E. Derbyshev,  V.I. Inozemtsev,  V. Papoyan,  P.N. Pyatov,  V.P. Spiridonov,  P.E. Zhidkov

 

Collaboration

Country or International Organization

City Institute or laboratory
Armenia Yerevan Foundation ANSL
    IIAP NAS RA
    YSU
Australia Melbourne Univ.
  Sydney Univ.
Austria Linz JKU
  Vienna TU Wien
Azerbaijan Baku Branch MSU
Belarus Minsk BSTU
    IP NASB
    JIPNR-Sosny NASB
    SPMRC NASB
    UCP MES
Belgium Louvain-la-Neuve UCL
Brazil Brasilia, DF UnB
  Natal, RN IIP UFRN
  Sao Paulo, SP USP
Bulgaria Plovdiv PU
  Sofia IMech BAS
    INRNE BAS
    ISSP BAS
    SU
Canada Kingston, ON Queen's
  London, ON Western
  Montreal Concordia
  Quebec UL
Czech Republic Olomouc UP
  Rez NPI CAS
Denmark Lyngby DTU
Ecuador Quito USFQ
Egypt Giza CU
France Marseille CPT
    UPC
  Nice UN
  Paris UPMC
  Valenciennes UVHC
Germany Bonn UniBonn
  Braunschweig TU
  Bremen Univ.
  Darmstadt GSI
    TU Darmstadt
  Dortmund TU Dortmund
  Dresden IFW
    MPI PkS
    TU Dresden
  Jena Univ.
  Leipzig UoC
  Magdeburg OVGU
  Rostock Univ.
  Wuppertal UW
Hungary Budapest Wigner RCP
India Kolkata IACS
Iran Zanjan IASBS
Italy Catania UniCT
  Fisciano UNISA
Japan Utsunomiya UU
Mongolia Ulaanbaatar IPT MAS
    NUM
New Zealand Auckland Univ.
Poland Katowice US
  Krakow JU
  Poznan AMU
    IMP PAS
  Warsaw IPC PAS
  Wroclaw WUT
Republic of Korea Daejeon CTPCS IBS
  Incheon Inha
Romania Bucharest IFIN-HH
  Cluj-Napoca UTC-N
  Timisoara UVT
Russia Belgorod BelSU
  Gatchina NRC KI PNPI
  Kazan KFU
  Moscow ITEP
    MI RAS
    MIREA
    NNRU "MEPhI"
    NRC KI
    NRU HSE
    PFUR
    SINP MSU
  Moscow, Troitsk HPPI RAS
    INR RAS
  Perm PSNRU
  Protvino IHEP
  Samara SU
  Saratov SSU
  St. Petersburg ETU
    Ioffe Institute
    ITMO Univ.
    PDMI RAS
    SPbSU
  Vladimir VISU
  Voronezh VSU
Serbia Belgrade INS "VINCA"
Slovakia Bratislava CU
  Kosice IEP SAS
    UPJS
Slovenia Ljubljana UL
South Africa Pretoria UNISA
Spain Madrid ICMM-CSIC
Switzerland Villigen PSI
  Zurich ETH
Taiwan Taipei IP AS
Ukraine Kharkov NSC KIPT
  Kiev IMP NASU
    NUK
  Lviv ICMP NASU
United Kingdom Coventry Warwick
USA Durham, NC Duke
  Irvine, CA UCI
  Louisville, KY UofL
  New York, NY CUNY
  Pasadena, CA Caltech
  Piscataway, NJ Rutgers
  Rochester, NY UR
  Tallahassee, FL FSU
Uzbekistan Tashkent Assoc. P.-S. PTI
Vietnam Hanoi IMS VAST