The following topics broad range to cover the most ongoing superconductivity, magnetism, and cryogenics research, which can be used to classify your abstract(s) according to its relevance to the sessions. Note that some of the topics are in the form of special focused sessions and general sessions. It is likely that your abstract will be related to more than one topic. We encourage you that during abstract submission select three topics of relevance in order of your preference, especially if you intend to have an oral presentation. Please feel any necessity, it is possible to make selections from the relevant topics in any mainstream.

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Abstract Classification Topics

Mainstream A: Superconductivity: Materials, Synthesis and Characterization
A1 A15 Superconductors from Properties to Applications
A2 Artificial Pinning in Superconductors
A3 Borocarbides
A4 Bulk Superconductors
A5 Carbon Based Superconductivity
A6 Coated Conductors
A7 Fulleride Superconductors
A8 Heavy Fermion Superconductivity
A9 HTS Cuprates
A10 Impurities and Defects in Superconductors
A11 Interface Superconductivity
A12 Iron-Based Superconductors: Advances in Crystal Growth and Thin Films
A13 Iron-Based Superconductors: Advances in Fundamentals, Theory and Mechanisms
A14 Iron-Based Superconductors: Experimental Properties of Materials
A15 Iron-Based Superconductors: Properties Important for Applications
A16 Low Temperature Superconductors
A17 Magnetic Shielding and Cloaking in Superconductors
A18 MgB2: Advances in Fundamentals, Theory and Mechanisms
A19 MgB2: Advances in Materials and Applications
A20 Nanoscale Superconductivity
A21 New Superconductors: Including the Hydrides, Nickelates and Recently Discovered Ones
A22 Organic Superconductors
A23 Photoemission and ARPES
A24 Single Crystals
A25 Superconducting Materials Processing and Structural Properties
A26 Superconducting Thin films and Multilayers
A27 Superconductor – Insulator Transition
A28 The Superconductors Under Extreme: The Hydrates Under Pressure
A29 Thermal, Magnetic and Electrical Properties of Superconductors
A30 Topological Superconductors
A31 Unconventional Superconductors and Tunable Quantum States
A32 Wires and Tapes
Mainstream B: Magnetism: Materials, Synthesis and Characterization
B1 Advances in Thin Films, Multi-Layers and Patterned Nanostructures
B2 Advances in Nanomagnetism
B3 Borides
B4 Carbon Based Magnetism and Graphene
B5 Cobaltates
B6 Coercivity Mechanism
B7 Dilute Magnetic Semiconductors
B8 Domain Wall Motion
B9 Electrical Field Effect on Magnetic Systems
B10 Ferrites and Rare Earth Magnetic Materials
B11 Functional Magnetic Materials and Applications
B12 Functional Oxide Thin Films
B13 Heusler Materials
B14 Intermetallic Compounds
B15 Low Dimensional Magnetism
B16 Magnetic Materials Processing and Physical Properties
B17 Magnetic Meta-materials
B18 Magnetic Phase Transitions
B19 Magnetic Recording, Sensors and Microwave Devices
B20 Magnetic Shape Memory Alloys and Magnetocalorics
B21 Magnetic Skyrmions, Solitons and Chiral Magnetism
B22 Magnetism and Spin Effects in Graphenes
B23 Magnetism of Nanoparticles, Nanowires and Nanostructures
B24 Magnetization Dynamics and Resonance
B25 Magnetocaloric Effect
B26 Magnetophotonics
B27 Magnetoresistance and Spin Effects
B28 Magnetostructural Transitions and Related Effects
B29 Manganites
B30 Micromagnetics
B31 Molecular Magnetism
B32 Multiferroics and Magnetic Oxides
B33 Nanomagnetism in Biological and Bio-inspired Systems
B34 Novel Functional Magnetic Materials: Basic Approach and Applications
B35 Soft and Hard Magnetic Materials
B36 Spin Glasses
B37 Spin Mechanics
B38 Spintronics – Devices and Applications
B39 Spintronics – Other Aspects
B40 Spintronics – Semiconductors, Oxide Interfaces, Graphene and Topological Insulators
B41 Spintronics – Spin Hall Effect, Spin Caloritronics and Other Spin-Transport Effects
B42 Spintronics – Spin Transfer Torque
Mainstream C: Interplay of Superconductivity and Magnetism
C1 Magnetic Superconductors and Triplet Superconductivity
C2 Magnetic Vortex Dynamics
C3 Multicomponent/multiband/multigap superconductivity
C4 Nanotechnology for Superconductivity
C5 Ruthenates
C6 Superconducting Spintronics
C7 Superconductivity and Magnetism at Nanoscale
C8 Superconductivity and Magnetism in Perovskite Oxides
C9 The Coexistence of Superconductivity and Magnetism
C10 Transition Metal Oxides
C11 Vortex Matter: Fundamental Properties and Simulations
C12 Vortex Dynamics in Superconductors
C13 Vortices in Superconductors/Ferromagnetic Hybrids
C14 Vortices and Nano-Structured Superconductors
Mainstream D: Large Scale and Energy Applications of Superconducting and Magnetic Materials
D1 AC Losses in Superconductors
D2 Boron Based Permanent Magnets & Magnetic Materials for Applications
D3 Large Scale Applications of Superconductors and Their Fundamental Technologies
D4 Large Scale Applications of Superconductors: Accelerators, Fusion and ITER
D5 Magnet Science and Technology
D6 Magnetic Imaging and Microscopy (E.G. MOKE, SNOM, MFM Etc.)
D7 Medical, Scientific and Energy Applications of Magnetic Materials
D8 Medical, Scientific and Energy Applications of Superconductors
D9 Power Applications of Superconductors
D10 Power Cables
D11 Superconducting Motors
D12 Superconducting Magnets for the 100 TeV Hadron Future Circular Collider
D13 Superconductor Fault Current Limiters: Principles and Practice
D14 Techniques and Instrumentation of Large Scale and Energy Applications
Mainstream E: Electronic Applications of Superconducting and Magnetic Materials
E1 Applications of CPP-GMR Devices
E2 Bio-magnetism and Medical Applications
E3 Digital/Mixed Signal Superconducting Circuits and Systems
E4 Josephson Junctions and SQUIDS
E5 Magnetic Nanoresonators
E6 Microwave Devices
E7 Quantum Information Technology
E8 RF and Microwave Devices and Applications
E9 Superconducting Circuits and Systems
E10 Superconducting Detectors and Readout
E11 Superconducting Devices Materials and Fabrication
E12 Techniques and Instrumentation for Electronics Applications
E13 Terahertz Applications
E14 Terahertz Emission and Intrinsic Josephson Junctions
Mainstream F: Theory, Mechanisms and Fundamentals
F1 Ab Initio Magnetism
F2 Broken Time Reversal Symmetry in Superconductors
F3 Frustrated Magnetism and Spin Systems
F4 Kondo Effect/Systems
F5 Lattice and Isotope Effects in Layered Superconductors
F6 Mott Transition / Vortex Physics
F7 Non-Equilibrium Superconductivity
F8 Novel Phenomena in Type-I Superconductivity
F9 Numerical Modelling of Superconducting Materials and Applications
F10 Phase Diagram of Superconductors, Pseudo-Gap and Order Parameters
F11 Proximity Effects in Superconductors
F12 Quantum Computation
F13 Quantum Criticality and Spin Liquids
F14 Quantum Phase Transitions
F15 Special Memorial Session for Contributions of Alexei A. Abrikosov
F16 Spin Dynamics of Correlated Systems
F17 Spin Waves
F18 Strongly Correlated Electrons/Systems
F19 Study of Fermi Surface of HTS by Magnetic Quantum Oscillations
F20 Superconducting Fluctuations and Related Effects
F21 Theory of Magnetism
F22 Theory of Superconductivity
F23 Time-Reversal Symmetry Breaking in Unconventional Superconductors
F24 Topological Insulators and Superconductors
F25 Topological Quantum Matter
F26 Valance Fluctuations
Mainstream G: Cryogenics, Materials and Engineering
G1 Cryogenic Materials, Engineering and Applications
G2 Cryogenic Engineering Modeling
G3 Cryogenic Power Cables and Leads
G4 Cryogenics – Cryocoolers
G5 Cryogenics – Electronics
G6 Cryogenics – Large Facility and Testing
G7 Cryogenics – Refrigeration and Liquefaction
G8 Hydrogen Cryomagnetics
G9 Innovative Cooling Systems
G10 Instrumentation
G11 Materials Testing and Evaluation
G12 Thermodynamics at Cryogenic Temperatures
New Topics / New Sessions-Recently Added
H1 Coexistence of Superconductivity and Magnetism-Detection, Control and Application
H2 Electronics Applications of Superconductors
H3 Graphene and Other 2D Materials-Theory
H4 Graphene: Advances in Experimental Studies
H5 Graphene Related Research: Properties Important for Applications
H6 HTS Cuprates – Preformed Pairs and Intertwined Orders
H7 HTS Superconducting Thin Films and Interface Superconductivity
H8 HTS Wires, Tapes, and Coated Conductors
H9 Low Dimensional Superconductivity
H10 Magnetically Ordered Iron Based Superconductors
H11 Magnetism and Spin Effects in Low-Dimensional Materials
H12 Magnetization Dynamics and Magnonics
H13 New Phenomena and Applications in Molecular Magnets
H14 Non-Hermitian Quantum Mechanics and Nonequilibrium Phase Transitions in Magnetic and Superconducting Systems
H15 Novel Developments in Orbital Physics
H16 Permanent Magnets: Materials and Their Applications
H17 Quantum Criticality and Related Phenomena
H18 Quantum Magnonics
H19 Recent Trends of Materials in Low Dimensional Magnetism
H20 Recent Progresses in Renewable Energy Technology Implications-Materials Perspectives
H21 Self-Organization and Transport in Bio-Inspired Active Magnetic Colloids
H22 Shape Memory Alloys and Magnetocalorics
H23 Shapeable Magneto-Electronics
H24 Studies of the Low-Dimensional Frustrated Magnetism of Layered Honeycomb and Triangular Oxides
H25 Tuning the Physical Properties by External Strain
H26 Ultrafast Magnetization Dynamics and Switching
HN1 Arsenides Superconductors
HN2 Majorana Fermions and Topological Superconductivity
HN3 Molecular Spintronics Based on Coordination Compounds
HN4 Nickel Oxide Superconductors
HN5 Quantum Technologies Based on 2D Oxides
HN6 Superconducting Qubits
HN7 The Interplay of Magnetism and Superconductivity
Other Related Topics of Interest: Miscellaneous 
O1 Miscellaneous
O2 Other Related Aspects of Cryogenics and Materials
O3 Other Related Aspects of Magnetism and Magnetic Materials
O4 Other Related Aspects of Superconductivity and Superconducting Materials