Keyphrases
AC Loss
71%
Superconductor
66%
Entanglement
66%
Spin Systems
63%
Magnetic Field
60%
Nanocavity
46%
Current Limiter
46%
High-Tc
43%
Fault Current Limiter
43%
Nuclear Spin
35%
BSCCO
33%
Inductive Current
33%
High-temperature Superconductors
30%
Transformer
28%
Dipole-dipole Interaction
26%
Critical State Model
26%
Power System
26%
MgB2
25%
External Magnetic Field
25%
Negative Temperature
24%
High-Tc Superconductors
24%
High-temperature Superconductivity
23%
Anisotropy
23%
Superconducting Fault Current Limiter
22%
Spin-lattice Relaxation
22%
Dipolar Coupling
22%
Single Spin
21%
Superconducting Ring
21%
Inductive Fault Current Limiter
21%
Quantum Correlations
20%
Current-limiting Device
20%
High Pressure
20%
Superconducting Element
20%
Superconducting State
20%
Fault Current
20%
Critical Current Density
19%
Nuclear Quadrupole Resonance
19%
Superconducting Films
19%
Multiple Quantum Coherence
18%
Relaxation Time
17%
Entanglement Dynamics
17%
Nuclear Polarization
16%
Thermal Process
16%
Entangled State
16%
Current-voltage Characteristics
16%
Numerical Simulation
16%
Superconducting Cylinder
16%
Power Law
15%
Normal Zone
15%
State Transition
15%
Engineering
Limiters
100%
Superconductor
90%
Magnetic Field
75%
Entanglement
48%
State Model
40%
Thin Films
31%
Energy Engineering
31%
Thermal Process
26%
Relaxation Time
26%
Experimental Result
24%
State Transition
20%
Limitations
19%
Transients
18%
External Magnetic Field
17%
Good Agreement
17%
Experimental Investigation
16%
Power Engineering
16%
Equilibrium State
15%
Resistive
15%
Applied Magnetic Field
14%
Switching Circuit
14%
Radio Frequency
13%
Tape
13%
Current-Voltage Characteristic
13%
Qubit
13%
Computer Simulation
12%
Energy Storage
12%
Primary Winding
12%
Full Scale
11%
Sapphire Substrate
11%
Biological System
11%
Internals
11%
Entangled State
10%
Eddy Current Loss
10%
Nuclear Spin
10%
Dipole Interaction
9%
Demagnetization
9%
Qubit State
9%
Joints (Structural Components)
9%
Harmonics
9%
Cryogenic Temperature
9%
Thermal State
9%
Silicon Substrate
9%
Competing Reaction
9%
Initial Concentration
9%
Relative Value
9%
Biological Tissue
9%
Temperature Dependence
8%
Thermodynamic Equilibrium
8%
Angular Dependence
8%