Keyphrases
5f Electrons
26%
Ab Initio Calculations
24%
Actinide Elements
21%
Anisotropic Thermal Expansion
23%
Antiferromagnetic Order
16%
Antiferromagnetism
19%
Bulk Modulus
21%
Crystal Field
41%
Cubic Laves Phase
43%
Diffraction Experiment
28%
Gd3+
16%
High Pressure
37%
High-temperature X-ray Diffraction (HT-XRD)
38%
Induced Order
17%
Intermetallics
17%
Lattice Parameter
33%
Laves Compounds
19%
Laves Phase
36%
Laves Phase Structure
24%
Low Temperature
33%
Magnetic Anisotropy
21%
Magnetic Exchange Interaction
21%
Magnetic Ordering
17%
Magnetic States
23%
Magnetic Structure
28%
Magnetism
21%
Magnetoelastic
22%
Magnetoresistance
17%
Magnetostriction
45%
Neutron
17%
Neutron Diffraction
23%
Non-magnetic
38%
Order-disorder Transition
24%
Orthorhombic
31%
Overpressure
33%
Pressure Dependence
17%
Pressure-induced
38%
Rare Earth
35%
Room Temperature
24%
Specific Heat
21%
Spin Fluctuations
30%
Spontaneous Magnetostriction
21%
Structural Stability
17%
Temperature Effect
28%
Temperature Range
23%
Thermal Expansion
100%
Total Energy Calculations
21%
Transition Pressure
17%
X Ray Diffraction
19%
X-ray Powder Diffraction
29%
Chemistry
Ab Initio Calculation
16%
Absorption Spectroscopy
7%
actinides
7%
Actinoid Atom
7%
Ambient Reaction Temperature
20%
Americium
8%
Antiferromagnetic
14%
Antiferromagnetic Exchange
7%
Bulk Modulus
7%
Compressibility
9%
Correlation Spectroscopy
7%
Crystal Field
18%
Curium
7%
electronics
9%
Exchange Interaction
15%
formation
24%
Ground State
12%
Heavy Fermion System
7%
Hydrogen
7%
Hydrogen Atom
7%
Intermetallic Compound
22%
Lattice Constant
21%
Lattice Dynamics
7%
Lattice Parameter
15%
Laves Phase
44%
Magnetic Phenomena
17%
Magnetic Scattering
7%
Magnetic Structure
7%
Magnetic Transition
11%
Magnetostriction
17%
Mean-Field Theory
7%
Neutron Diffraction
7%
Order Disorder Transition
7%
Phase Diagrams
7%
Powder Diffraction
11%
Protactinium
7%
Purity
13%
Quadrupole Interaction
7%
Solid Solutions
18%
Space Group
11%
Spin Fluctuation
11%
stability
13%
Structural Chemistry
7%
Superlattice
35%
Synchrotron Radiation
9%
Thermal Expansion
64%
Transport Property
7%
Uranium
9%
X Ray Absorption Spectroscopy
7%
X-Ray Diffraction
11%