• 1. Focus session in honor of Lev Gor’kov "Multiple electronic components in cuprates" (organized with Gregory Teitelbaum)
  • 2. Focus session on "Topological BKT phases in disordered materials" (organized with Valerii Vinokour)
  • 3. Focus session on "Mott insulating spin liquids: organics and inorganic materials" (organized with Kosmas Prassides)
  • 4. Focus session on "Metal to Insulator transitions in VO2 and related correlated materials" (organized with Augusto Marcelli)
  • 5. Focus session on "superconductivity at nanoscale" (organized with Andrea Perali)
  • 6. Focus Session: "Synthesis of new functional materials and new superconductors" (organized with Nikolai Zhigadlo)
  • 7. Focus Session: "Phase slips in nanoscale superconducting weak links" (organized with Andrei Zaikin and Francesco Tafuri)
  • 8. Focus session on "Dichalcogenides" (organized with Despina Louca)
  • 9. Focus Session: "New 2D crystalline superconductors" (organized with Yoshihiro Iwasa)
  • 10. Focus Session: "Complexity in heavy fermions" (organized with Wirth Steffen)
  • 11. Focus Session: "Topological electronic structures, new electronic phases of matter and Lifshitz transitions" (organized with Egor Babaev)
  • 12. Focus Session: "Phase separation and critical points in first order transitions in correlated systems" (organized with Tomo Uemura)
  • 13. Focus Session "Multiple orbitals in high Tc superconductors" (organized with Hiroshi Kontani and Andrzej Oles)
  • A. NANOSCALE PHASE SEPARATION
    • A1. Cuprates, Borides, Hydrates
    • A2. Iron based superconductors
    • A3. Ferroelectrics, relaxors, memistors
    • A4. Complex magnetic materials
    • A5. Complex geometries
    • A6. Hyperbolic space
    • A7. Scale free networks, multiplex networks
  • B. CDW AND STRIPES
    • B1. in high Tc superconductors
    • B2. in organics, hydrates, complex matter
    • B3. in complex electronic materials
    • B4. Charge stripes
    • B5. Magnetic stripes
    • B6. Superconducting stripes
    • B7. Small Fermi surface pockets
  • C. ORBITAL EFFECTS
    • C1. Orbital density waves
    • C2. Spin-orbit coupling
  • D. TOWARD ROOM TEMPERATURE SUPERCONDUCTIVITY
    • D1. Hydrides
    • D2. Organics
    • D3. Iron based superconductors
    • D4. Cuprates at high pressure
    • D5. Complex earth science matterials
    • D6. Artificial nastructured materials
  • E. DEFECTS AND LATTICE COMPLEXITY
    • E1. Quenched disorder (Dopants, Misfit Strain, corrugation, filaments, puddles, lattice distortion)
    • E2. Incommensurate phases and quasi-crystals
    • E3. Stripes made of atomic defects
    • E4. Stripes due to strain effects
  • F. COMPLEX MAGNETIC STRUCTURE IN CUPRATES
    • F1. Magnetic quantum phase transition
    • F2. FFLO
    • F3. Spin spirals
    • F4. Magnetic structure of cuprates
  • G. CRITICAL POINTS
    • G1. Quantum criticality
    • G2. Griffiths phases and other rare region effects
    • G3. Phase Transitions with quenched disorder
    • G4. Correlated disorder in Phase transitions
    • G5. Phase transitions in Hyperbolic Space
  • H. TOPOLOGICAL QUANTUM FIELD THEORY
    • H1. in high temperature superconductivity
    • H2. Majorana Fermions
    • H3. Higgs mode in disordered superconductors
  • I. VORTEX MATTER
    • I1. Magnetoresistance
    • I2. Phase transitions
  • J. ISOTOPE EFFECT
    • J1. Isotope effect and polaron superconductivity
    • J2. Isotope effect at shape resonances in superconducting gaps
    • J3. Isotope effect at Lifshitz transitions
  • K. QUANTUM DEVICES
  • L. TIME RESOLVED DYNAMICS OF COMPLEX MATERIALS
  • M. NANOSCALE MATERIALS
    • M1. Graphene, fullerene-based
    • M2. Aromatic superconductors
    • M3. Related carbon base materials
  • N. SILICENE AND RELATED MATERIALS
  • O. GRANULAR NANOSCALE SUPERCONDUCTORS
    • O1. Control and manipulation
    • O2. Fractal superconductivity
  • P. SUPERCONDUCTOR-TO-INSULATOR TRANSITION AND EMERGENT INHOMOGENEITY
  • Q. MULTI-COMPONENTS SUPERCONDUCTIVITY
    • Q1. Multi-condensates superconductors
    • Q2. Multi-gap superconductors
    • Q3. Shape resonances in superconducting gaps
    • Q4. Fermi-Bose systems
    • Q5. Negative U Centers in multi-components materials
  • R. SUPERCONDUCTIVITY AT NANOSCALE
    • R1. Quantum size effects
    • R2. 2DEG in oxide interfaces
    • R3. Proximity effects
  • S. ELECTRONIC CRYSTALS
    • S1. Inhomogeneous electronic crystals
  • T. COMPLEX FERMIOLOGY OF SUPERCONDUCTORS
    • T1. Multiband materials
    • T2. Lifshitz transitions
    • T3. Electronic Topological Transitions
    • T4. Cuprates with multiple Fermi surface spots
    • T5. Iron based superconductors
    • T6. Correlated electronic systems
  • U. ULTRACOLD GASES
    • U1. BEC-BCS crossover
    • U2. Bose condensation
    • U3. Optical Lattices
    • U4. Multi-condensates
    • U5. Dynamical phenomena
  • V. QUANTUM FIELD THEORIES AND UNCONVENTIONAL SUPERCONDUCTIVITY
    • V1. Chirality in quantum fluids
    • V2. Chiral superconductors
    • V3. Vortex chiral phases
    • V4. Unconventional geometries
  • W. FERROELECTRICS
    • W1. Multiferroics
    • W2. Relaxors
  • X. THERMOELECTRICITY
    • X1. Thermoelectric Devices
  • Y. NANOMAGNETISM
    • Y1. Magnetic nanomaterials
    • Y2. Single molecule magnetism
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