Engineering
Superconducting Coil
98%
Thermal Load
64%
Ignition
47%
Computer Simulation
47%
Realization
41%
Strand
37%
Bus Line
33%
Voltage Drop
32%
Low-Temperature
31%
Magnetic Field
30%
Cold Box
30%
Hydraulics
30%
Engineering
28%
Circulators
28%
Real Process
28%
Pressure Drop
28%
Test Result
27%
Supercritical Fluid
25%
Control Strategy
25%
Simulation Model
25%
Heat Transport
25%
Cooling Power
25%
Power Supply
23%
Experimental Result
22%
Solid Fuel
22%
Porosity
22%
Field Coil
21%
Heat Generation
19%
Pore Diameter
18%
Pulse Length
18%
Feedthrough
18%
Exchanger
18%
Joints (Structural Components)
17%
Operation and Maintenance
17%
Superconductor
17%
Coupling Loss
16%
Supercritical Flow
15%
Cooling Scheme
14%
Capillarity
14%
Plasma Disruption
14%
Room Temperature
14%
Target Temperature
14%
High Availability
14%
Numerical Study
14%
Two Dimensional
14%
Electron Energy
14%
Transients
12%
Electric Power Utilization
12%
State Operation
12%
Dynamic Behavior
12%
Physics
Blood Plasma
100%
Superconducting Magnet
47%
Steady State
44%
Liquid Helium
35%
Tokamak Device
26%
Magnetism
26%
Heat Exchanger
20%
Magnetic Field
19%
Physics
18%
Hydraulics
18%
Plasma Disruption
18%
Supercritical Flow
18%
Condenser (Liquefiers)
18%
Ion Temperature
15%
Stellarator
12%
Electron Energy
12%
Superconductivity
12%
Superconducting Device
11%
Supercritical Fluid
11%
Deuterium
9%
Transmission Line
9%
Coolant
9%
Tritium
9%
Regenerator
9%
Current Distribution
9%
Heat Generation
9%
Stability Test
9%
Numerical Model
9%
Fusion Plasmas
9%
Magnetohydrodynamics
9%
Thermal Conductivity
9%
Capillarity
9%
Liquid Fuels
9%
Target Temperature
9%
Magnetohydrodynamic Generator
6%
Cryostat
6%
Pool Boiling
5%
Plasma Current
5%