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Glassy ferromagnetism and magnetic phase separation in La
1−x
Sr
x
CoO
3
J. Wu,
C. Leighton
Chemical Engineering and Materials Science
Research output
:
Contribution to journal
›
Article
›
peer-review
535
Scopus citations
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Dive into the research topics of 'Glassy ferromagnetism and magnetic phase separation in La
1−x
Sr
x
CoO
3
'. Together they form a unique fingerprint.
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Engineering & Materials Science
Ferromagnetism
100%
Magnetic separation
79%
Phase separation
72%
Magnetization
66%
Metal insulator transition
52%
Doping (additives)
46%
Magnetoresistance
44%
Colossal magnetoresistance
31%
Galvanomagnetic effects
29%
Enhanced magnetoresistance
26%
Temperature
22%
Electronic properties
21%
Ground state
20%
Magnetic properties
16%
Coalescence
16%
Freezing
15%
Ions
12%
Cooling
9%
Chemical analysis
9%
Chemical Compounds
Ferromagnetism
70%
Magnetization
52%
Curie Temperature
50%
Phase Separation
48%
Negative Magnetoresistance
46%
Ferromagnetic Ordering
41%
Metal Insulator Transition
39%
Percolation
33%
Spin State
31%
Magnetoresistance
19%
Molecular Cluster
18%
Cluster Model
17%
Cooling
12%
Electron Spin
11%
Electronic Property
11%
Magnetic Property
11%
Ground State
11%
Glass
9%
Conductivity
9%
Ambient Reaction Temperature
7%
Ion
5%
Physics & Astronomy
ferromagnetism
54%
Curie temperature
25%
magnetization
24%
magnetic permeability
20%
insulators
13%
cusps
10%
spin glass
9%
metals
9%
freezing
9%
coalescing
8%
tendencies
8%
moments
6%
magnetic properties
6%
cooling
6%
ground state
6%
conductivity
6%
temperature dependence
6%
room temperature
5%
electronics
4%
ions
4%
temperature
2%