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 |