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Timescales in the thermal dynamics of magnetic dipolar clusters
Paula Mellado
Faculty of Engineering and Science
Research output
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Contribution to journal
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Article
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peer-review
2
Scopus citations
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Keyphrases
Magnetic Dipole
100%
Inertia
100%
Degrees of Freedom
100%
Correlation Length
100%
Dipole
100%
Collective Behavior
100%
Langevin Equation
100%
Dipolar Systems
100%
Physical Mechanism
100%
Active Dynamics
100%
Brownian Oscillator
100%
Active Structure
100%
Heat Bath
100%
Temperature Damping
100%
Lowest Energy State
100%
Thermal Dynamics
100%
Frequency Mode
100%
INIS
dynamics
100%
interactions
50%
length
50%
correlations
50%
solutions
50%
magnetic dipoles
50%
inertia
50%
degrees of freedom
50%
heat
50%
dipoles
50%
oscillators
50%
damping
50%
states (energy)
50%
langevin equation
50%
Engineering
Correlation Length
100%
Degree of Freedom
100%
Active Dynamic
100%
Plaquette
100%
Lower Energy State
100%
Oscillator
100%
Physics
Langevin Equation
100%
Volume
100%
Degree of Freedom
100%