Engineering
Radiation Shielding
83%
Alloy
83%
Reduction
58%
Ionizing Radiation
55%
Fields
51%
Scaling
41%
Orthorhombic
41%
Room Temperature
41%
Cross Section
39%
Fourier Transform
37%
Lattice Parameter
37%
Space Group
37%
Shielding Property
37%
Ray Diffraction
34%
Application
34%
Sb Concentration
27%
Temperature
27%
Ferromagnet
27%
Detection
27%
Molybdenum
27%
Water
27%
Bragg Cell
27%
Nanometre
27%
Iron
27%
Transition Temperature
27%
Energy Gap
27%
Fast Neutron
25%
Magnetic State
18%
Cooling Power
18%
Lattice Distortion
18%
Temperature Range
18%
Energy Engineering
18%
Packing Density
18%
Density
16%
Stopping Power
16%
Spin Configuration
13%
Longitudinal Mode
13%
Absorption Cross
13%
Monotonic
13%
Field Model
13%
Isothermal
13%
Reliability
13%
Detection Limit
13%
Supports
13%
Heisenberg Box
13%
Contaminant
13%
Iron Content
13%
Optical Spectrum
13%
Order Phase Transition
13%
Light Absorption
13%
X-Ray Diffraction Pattern
13%
Diode Laser Absorption Spectroscopy
13%
Estimated Value
13%
Optimization
13%
Performance
13%
Air Path
13%
Coupling Strength
13%
Fe Content
13%
Measured Data
9%
Enhancement
9%
Refrigeration
9%
Primary Beam
9%
Density Ratio
9%
Evaluation
9%
Functional Group
9%
Germany
9%
Minimum Value
9%
Calorific Value
9%
Maximum Entropy
9%
Entropy Change
9%
Incident Beam
9%
Neutron Energy
9%
Sample Structure
9%
Long Range
9%
Kolmogorov-Smirnov
9%
Energy Maximum
9%
Poisson Ratio
9%
Two Dimensional
9%
Deep Inside
9%
Co-Doping
9%
Shallower
9%
Shielding Material
9%
Cell Volume
9%
Accuracy
9%
Planning
9%
Basal Plane
9%
Deposited Energy
9%
Radiation
9%
Elements
9%
Gamma Ray
9%
Glass Structure
9%
High Density
9%
Correlation
9%
Mass Density
6%
Codes
6%
Determines
6%
Experimental Technique
6%
Gap Ratio
6%
Critical Field
6%
Material Science
X-Ray Diffraction
100%
Temperature
97%
Alloy
83%
Perovskites
69%
Magnetocaloric Effect
55%
Lattice Constant
55%
Ceramics
55%
Density
48%
Materials
41%
Rietveld Refinement
34%
Crystal Structure
34%
Dielectric Property
27%
Molybdenum Oxide
27%
Borate
27%
Iron
27%
Glass
27%
Composite Material
27%
Curie Temperature
27%
Laser Diode
27%
Diffraction Pattern
27%
Gas
27%
Metal
27%
Oxidation Reaction
27%
Nitrogen Dioxide
27%
Cobalt
27%
Single Crystal
27%
Mechanical Strength
27%
Poisson Ratio
13%
Glass Composition
9%
Amorphous Material
9%
Permittivity
6%
X Ray Diffraction Analysis
6%
Refrigeration
6%
Physical Property
6%
Magnetic Susceptibility
6%
Cobaltate
6%
Magnetic Material
6%
Physics
Semiconductor Laser
27%
Single Crystal
27%
Behavior
27%
Detection
27%
Specific Heat
27%
Increasing
18%
Region
13%
Spectra
13%
BCS Theory
13%
Ferromagnetic Material
9%
Phase Transition
9%
Deviation
9%
Spin
9%
Packing Density
9%
Beryllium
9%
Model
9%
Transition Temperature
9%
Absorption Cross Sections
6%
Absorption Spectroscopy
6%
Contaminant
6%
Nitrogen
6%
Optical Method
6%
Air
6%
Electromagnetic Absorption
6%
Performance
6%
Width
6%
Dioxide
6%
Optimization
6%