Keyphrases
AC Loss
50%
Aeolian Ripples
25%
Analytical Solution
28%
Applied Superconductivity
31%
Arbitrary Shape
28%
Atom Trapping
25%
Bean Model
31%
Bean's Critical State Model
50%
Beans
25%
Coated Conductor
56%
Concentration Polarization
25%
Continuous Model
35%
Critical State Model
32%
Current-voltage Relation
42%
Dual Formulation
25%
Efficient numerical Scheme
29%
Electric Field (E-field)
44%
Evolutionary
51%
External Magnetic Field
29%
Fast Fourier Transform
47%
Ferromagnetic Substrate
31%
Finite Element Approximation
31%
Finite Element Method
56%
Hemivariational Inequality
53%
Lower Order
30%
Magnetic Field
46%
Magnetic Trap
40%
Magnetization
71%
Magnetization Problems
95%
Mixed Formulation
47%
Numerical Approximation
26%
Numerical Experiments
28%
Numerical Methods
38%
Numerical Simulation
41%
Numerical Solution
30%
Problem State
93%
Quasi-variational Inequality
66%
Sandpile
100%
Solution Existence
43%
Solution Uniqueness
25%
Superconducting Dynamo
35%
Superconducting Films
52%
Superconductivity
66%
Superconductor
82%
Transport Current
76%
Type-II Superconductivity
60%
Type-II Superconductors
85%
Variational
38%
Variational Formulation
74%
Variational Model
25%
Engineering
Bean Model
15%
Benchmark Problem
12%
Coarse Particle
12%
Computer Simulation
28%
Concentration Polarization
25%
Conjugate Variable
6%
Continuum Model
12%
Convective
12%
Diffusivity
12%
Dimensional Model
12%
Dimensionless Parameter
12%
Dynamic Response
12%
Electric Field
12%
Energy Engineering
12%
Extended System
12%
External Magnetic Field
25%
Fast Fourier Transform
18%
Finite Element Method
18%
Free Surface
12%
Generated Voltage
6%
Harmonics
12%
High Aspect Ratio
12%
Induced Electric Field
12%
Laplace Operator
12%
Layer Solution
6%
Limiting Case
25%
Magnetic Field
35%
Magnetic Flux
8%
Magnetic Permeability
12%
Mathematical Model
9%
Metastable State
10%
Multiplicity
10%
Numerical Methods
22%
Numerical Solution
27%
Ohms Law
6%
Open Circuit
6%
Penetration Depth
7%
Permanent Magnet
12%
Rotors
6%
Salient Feature
12%
Shell Model
12%
Similarities
8%
Solid Mechanics
12%
State Model
44%
Superconductivity
47%
Superconductor
73%
Tape
27%
Thickness Ratio
12%
Thin Films
10%
Two Dimensional
25%