NanoPaleoMagnetism | Random packing of randomly oriented uniaxial magnetite particles

Random packing of randomly oriented uniaxial magnetite particles

p=0.01

p=0.01

No of Particles: 500

Diameter: 100 nm

Packing fraction: 0.01

Anisotropy: Uniaxial

Coercivity Distribution: Alpha = 0.5 Beta = 20

Simulation Type: LLG

Hc = 0.16 T, Hu =0.06 T, Step Size = 0.0025 T

No. FORCs = 100

No averaging steps: 100

Lower branch removed: yes

Smoothing factor: 3, 7, 3, 7, 0.1, 0.1

p=0.05

p=0.05

No of Particles: 500

Diameter: 100 nm

Packing fraction: 0.05

Anisotropy: Uniaxial

Coercivity Distribution: Alpha = 0.5 Beta = 20

Simulation Type: LLG

Hc = 0.16 T, Hu =0.06 T, Step Size = 0.0025 T

No. FORCs = 100

No averaging steps: 100

Lower branch removed: yes

Smoothing factor: 3, 7, 3, 7, 0.1, 0.1

p=0.1

p=0.1

No of Particles: 500

Diameter: 100 nm

Packing fraction: 0.1

Anisotropy: Uniaxial

Coercivity Distribution: Alpha = 0.5 Beta = 20

Simulation Type: LLG

Hc = 0.16 T, Hu =0.06 T, Step Size = 0.0025 T

No. FORCs = 100

No averaging steps: 100

Lower branch removed: yes

Smoothing factor: 3, 7, 3, 7, 0.1, 0.1

p=0.2

p=0.2

No of Particles: 500

Diameter: 100 nm

Packing fraction: 0.2

Anisotropy: Uniaxial

Coercivity Distribution: Alpha = 0.5 Beta = 20

Simulation Type: LLG

Hc = 0.16 T, Hu =0.06 T, Step Size = 0.0025 T

No. FORCs = 100

No averaging steps: 100

Lower branch removed: yes

Smoothing factor: 3, 7, 5, 7, 0.2, 0.2

p=0.3

p=0.3

No of Particles: 500

Diameter: 100 nm

Packing fraction: 0.3

Anisotropy: Uniaxial

Coercivity Distribution: Alpha = 0.5 Beta = 20

Simulation Type: LLG

Hc = 0.16 T, Hu =0.06 T, Step Size = 0.0025 T

No. FORCs = 100

No averaging steps: 100

Lower branch removed: yes

Smoothing factor: 3, 7, 5, 7, 0.2, 0.2

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