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Interacting nanoparticle systems

III. Strongly Interacting Nanoparticle Systems-A. Spin Glasses... [Pg.191]

Because of the long-range and reduced symmetry of the dipole-dipole interaction, analytical methods such as the thermodynamic perturbation theory presented in Section II.B.l. will be applicable only for weak interaction. Numerical simulation techniques are therefore indispensable for the study of interacting nanoparticle systems, beyond the weak coupling regime. [Pg.214]

III. STRONGLY INTERACTING NANOPARTICLE SYSTEMS— SPIN-GLASS-LIKE BEHAVIOR... [Pg.214]

See other pages where Interacting nanoparticle systems is mentioned: [Pg.192] [Pg.199] [Pg.215] [Pg.217] [Pg.220] [Pg.225] [Pg.233] [Pg.235] [Pg.236] [Pg.237] [Pg.238] [Pg.267] [Pg.268]

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Interacting nanoparticle systems dipolar fields

Interacting nanoparticle systems dynamic properties

Interacting nanoparticle systems field dynamics

Interacting nanoparticle systems interparticle interaction

Interacting nanoparticle systems magnetic field effects

Interacting nanoparticle systems materials

Interacting nanoparticle systems models

Interacting nanoparticle systems numerical techniques

Interacting nanoparticle systems spin glasses

Interacting nanoparticle systems spin-glass-like behavior

Interacting system

Interaction system

Nanoparticles systems

Strongly-interacting nanoparticle systems

Strongly-interacting nanoparticle systems models

Strongly-interacting nanoparticle systems spin glasses

Strongly-interacting nanoparticle systems spin-glass-like behavior

Systems nanoparticle