Physics
Cooling
100%
Temperature
77%
Sorption
74%
Utilization
50%
Performance
46%
Gaseous State
40%
Cryogenics
37%
Heat
33%
Technology
33%
Model
31%
Pressure
31%
Counterflow
26%
Free Vibration
25%
Helium
23%
Nitrogen
22%
High Temperature
21%
Coil
21%
Magnetic Fields
21%
High Pressure
20%
Heat Exchanger
17%
World
17%
Hydrogen
16%
Extremely large telescope
16%
Working Fluid
16%
Cycles
15%
Cryogenic Cooling
14%
Gradients
14%
Gaps
14%
Cooling Systems
13%
Ambient Temperature
13%
Adsorption
12%
Optimization
12%
Optics
12%
Vibration
12%
Low Pressure
12%
Frequencies
11%
Magnets
11%
Refrigerator
10%
Ferrofluid
9%
Cryogenic Temperature
9%
Simulation
9%
Arrays
9%
Copper
9%
Liquid Nitrogen
9%
Spectrographs
9%
Wafer
8%
Volume
8%
Plane
7%
Mass Flow Rate
7%
Vacuum
7%
Engineering
Joule
49%
Design
44%
Temperature
36%
Stages
36%
Microcooler
35%
Performance
32%
Cooling Power
24%
Counterflow Heat Exchanger
23%
Applications
22%
Models
17%
Fluid
16%
Space Application
16%
Experiments
15%
Development
13%
High Pressure
13%
Free Vibration
12%
Fields
12%
Cooling System
12%
Ambient Temperature
12%
Cryogenic Cooling
11%
Cycles
11%
Numerical Model
11%
Activated Carbon
11%
Meshes
11%
Sensor
10%
Temperature Range
9%
Experimental Result
9%
Validation
9%
Ejector
9%
Cryogenic Temperature
8%
Adsorption
8%
Pressure Drop
8%
Magnetic Fields
8%
Dynamic Model
7%
High Temperature
7%
Large Telescope
7%
Adsorbent
7%
Electronic Devices
7%
Low Pressure
7%
Measurement
7%
Moving Part
6%
Measurer
6%
Indium
6%
Lower Temperature
6%
Characteristics
6%
Water
6%
Input Power
5%
Ships
5%
Heat Transfer
5%
Mass Flowrate
5%