Superstripes 2026
Quantum Complex Matter
 
Rome – June 15-19, 2026

Superstripes 2026
Quantum Complex Matter
 
Rome – June 15-19, 2026

Superstripes 2026
Quantum Complex Matter
 
Rome – June 15-19, 2026

Superstripes 2026

Topics

  1. Symmetry and heterogeneity
  2. Multi-condensates
  3. Fano resonances
  4. Majorana fermions
  5. Topological materials
  6. Quantum complex matter
  7. Artificial quantum heterostructures
  8. Spin-orbit.coupling
  9. Stripes
  10. Superstripes
  11. Unconventional electron-phonon interaction
  12. Dynamics of light induced states in magnets and in superconductors
  13. Phase transitions
  14. Phase separation
  15. Electronic inhomogeneities
  16. Polarons condensation and pairing
  17. Control and manipulation of complexity
  18. Novel quantum devices
  19. Nanoscale supramolecular heterostructures
  20. Topological quantum science
  21. Pair exchange in multigap systems
  22. Fano resonances
  23. Artificial heterostructures at atomic limit
  24. Interface superconductivity
  25. Complex quantum matter
  26. Cold atoms physics
  27. Nanoscale phase separation
  28. Supersolids
  29. Supercrystals
  30. High entropy materials
  31. Topological quantum science
  32. Topological materials
  33. Topology and ferromagnetism
  34. Edge states
  35. Spin-orbit interaction
  36. Magneto-electrics
  37. Multiferroics
  38. Twisted bilayer graphene
  39. Twisted 2D flakes
  40. Physics and technology of 2D flakes
  41. Unconventional electron-phonon interaction
  42. Rashba physics and topological order
  43. High pressure physics
  44. Superconducting pressurized hydrides
  45. Room temperature superconductivity
  46. Stripe-order in cuprates and related materials
  47. Magnetic field control of Stripe-order
  48. Uniaxial stress control of stripes-order
  49. Magnetism and superconductivity
  50. Dynamics of many body localized states
  51. Nanoscale phase separation
  52. Thermalization
  53. Many-body localization
  54. Charge density waves
  55. Spin density waves
  56. Moiré materials
  57. Nickelate superconductors
  58. Strongly correlated d- and f- electron systems
  59. Advances in Josephson junctions
  60. Unconventional Josephson junctions
  61. Unconventional electron-phonon interaction
  62. Spin-orbit.coupling in superconductivity
  63. Kondo lattice and superconductivity
  64. Berry phase in complex materials
  65. Ferroelectric quantum materials
  66. Polarons condensation and pairing
  67. Symmetry and heterogeneity
  68. Skyrmions
  69. Perovskites
  70. Phase transitions
  71. Phase separation
  72. Electronic inhomogeneities
  73. Multi-condensates
  74. Fano resonances
  75. Majorana fermions
  76. Topological materials
  77. Quantum complex matter
  78. Artificial quantum heterostructure
  79. Engineering multi-gap superconductivity by quantum design
  80. Interface superconductivity
  81. Tc amplification by internal and external electric field
  82. Modulation‐doped superconductor heterojunction superlattices
  83. Modulation-doping of correlated electron insulators
  84. Quantum phenomena in resonant tunneling heterostructures
  85. 2DEG in heterojunctions
  86. Kondo lattice in modulation‐doped heterojunction superlattices
  87. Kondo lattice in a van der Waals Superconductors
  88. Kondo lattice in heterostructure interfaces
  89. Multiband superconductivity in interface superconductivity
  90. Spin orbit interactions in modulation‐doped superconductor
  91. Superconductivity in heterojunction superlattices
  92. Superconductivity in the Kondo lattice
  93. Superconductivity at the interface of two Mott insulators
  94. Bilayer and trilayer superconducting nickelates
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