Physics
Diamonds
100%
Pressure
98%
High Pressure
85%
Temperature
70%
High Temperature
56%
X-Ray Free Electron Laser
56%
Laser
48%
Insulators
46%
Statics
46%
Melting Point
38%
Phase Transition
36%
X Ray
33%
Liquids
32%
Behavior
29%
X Ray Diffraction
29%
Diffraction
29%
Helium
27%
Shock Wave
26%
Optical Properties
25%
Pulses
25%
Equations of State
24%
Transition Element
23%
Transition Metal
23%
Heating
22%
Laser Heating
21%
Regimes
19%
Utilization
19%
Hydrogen
18%
Deuterium
18%
Broadband
17%
Responses
16%
Spectroscopy
15%
Planetary Interior
14%
Probe
14%
Ionization
13%
Single Crystals
13%
Region
13%
Targets
13%
State of Matter
13%
Flux Density
13%
Bismuth
12%
Technology
12%
Calculation
11%
Solid Phase
10%
Iron
10%
Gaps
10%
Static Pressure
10%
Solid State
9%
Optical Measurement
9%
Metallic Hydrogen
9%
Earth and Planetary Sciences
Surface Pressure
47%
Diamond
47%
Condition
42%
High Pressure
39%
Temperature
39%
Compression
37%
High Temperature
35%
Laser
28%
Experiment
24%
Liquid
24%
State
22%
Melt
21%
Thermal Conductivity
18%
Viscosity
18%
Sample
17%
Datum
17%
Solid
16%
Region
16%
Model
15%
Heating
15%
Prediction
14%
Investigation
13%
Single Crystal
13%
Statics
13%
Diamond Anvil Cell
12%
Convection
12%
X Ray
12%
Planetary Interior
12%
Optical Property
12%
Laser Heating
11%
Anvil
11%
Isolators
11%
Transition Metal
11%
Regime
11%
Iron
10%
Water
10%
Free Electron Lasers
10%
Static Pressure
10%
Utilization
10%
Precision
9%
Helium
9%
Hydrogen
9%
Deuterium
9%
Phase Transformations
9%
Hydrocarbon
9%
Microbalance
9%
Fluid Flow
9%
Silicate Melt
9%
Planetary Atmosphere
9%
Planet Interior
9%
Chemistry
Pressure
86%
Reaction Temperature
43%
Compression
37%
X-Ray
36%
Free Electron
32%
Phase Transition
21%
Liquid
19%
Nitrogen
18%
Dissociation
18%
Diamond
17%
Sample
15%
Heating
15%
Chemical Reaction
14%
Hydrogen
14%
Spectroscopy
14%
Application
13%
Energetics
13%
Solid
13%
Synthesis (Chemical)
12%
Laser Heating
11%
X-Ray Diffraction
11%
Water Type
10%
Raman Spectroscopy
9%
Primary Structure
9%
Reactivity
9%
X-Ray Irradiation
9%
Thermal Conductivity
9%
Deuterium(.)
9%
Equation of State
9%
Methyl
9%
Antimony
9%
Ammonia
9%
Mixture
9%
Metal Insulator Transition
9%
Iron Nitride
9%
Ultrafast Spectroscopic Techniques
9%
Chemical Property
9%
Time
8%
Metal
7%
Ammonia
7%
Heat Transfer
6%
Iron
5%
Transport Property
5%
