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A: Magnets for Particle and Nuclear Physics
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A01: Superconducting Accelerator Magnets
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A02: Resistive Accelerator Magnets
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A03: Wigglers and Undulators
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A04: Particle Detector Magnets
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B: Magnets for Fusion
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B01: Superconducting Magnets for Fusion
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B02: Superconducting wires and cables for Fusion
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B03: Technologies for Fusion: cryogenics, power supplies, joints, other
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C: Magnets for High-Field Facilities
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C01: Superconducting and Hybrid High-Field Magnets
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C02: Resistive and Pulsed High-Field Magnets
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D: Magnets for Medical, Biological, and Analytical Applications
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D01: Magnets for NMR
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D02: Magnets for MRI
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D03: Magnets for other Medical and Biological Applications
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E: Coils for Power, Energy, Transport, and other Applications
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E01: Rotating machinery
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E02: Wind, Wave, and Tidal Generators
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E03: Energy Storage / SMES, Levitation and Magnetic Bearings
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E04: Transformers and Fault Current Limiters
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E05: Novel and Other Applications
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F: Conductors and Materials for Magnets
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F01: Low Tc Wires and Cables
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F02: MgB2 Wires and Cables
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F02: MgB2 Wires and Cables
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F03: HTS Wires and Cables
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F04: Joints between Superconductors, current leads, bus bars
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F05: Structural and Insulation materials for Magnets. Other Magnet components
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G: Generic application technologies: Approaches and Tools
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G01: Quench Detection and Protection, Stability of Conductors and Coils
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G02: No-insulation coils
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G03: Losses in Conductors and Coils, Thermal analysis
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G04: Magnetization and Field Quality
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G05: Mechanical Behavior and Stress
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G06: Design and Analysis Tools, Novel Diagnostic Techniques
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G07: Conductor and Coil Measurement/Test Techniques and Facilities
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G08: Bulk and permanent magnets
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H: Associated Technologies for Magnets
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H01: Cryostats and Cryogenics
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H02: Power Supplies and Flux Pumps
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H03: Other Associated Technologies
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