Python Simulation.Simulation Examples

Programming Language: Python

Namespace/Package Name: nmag.nmag5

Class/Type: Simulation

Method/Function: Simulation

Examples at hotexamples.com: 3

Python Simulation.Simulation - 3 examples found. These are the top rated real world Python examples of nmag.nmag5.Simulation.Simulation extracted from open source projects. You can rate examples to help us improve the quality of examples.

Frequently Used Methods

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Simulation(3)

load_mesh(3)

relax(3)

set_m(3)

set_H_ext(2)

set_params(2)

declare(1)

load_m_from_h5file(1)

save_m_to_file(1)

Example #1

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ps = SI(1e-12, "s"); nm = SI(1e-9, "m")               # Useful definitions

theta_rad = 3.141592654

phi_rad = 1.570796327                             

#length, width, thick = (2*nm, 16*nm, 64*nm)       # System geometry

current_density = SI( 100e10, "A/m^2") # Applied current

Happ_dir = [0, 0, 0]                           # Applied field (mT)- 



# Material definition

anis = cubic_anisotropy(axis1=[1, 0, 0], axis2=[0,1,0], K1=SI(-1e4, "J/m^3"))

mat = MagMaterial("Co",

                  Ms=SI(9.0e5, "A/m"),

                  exchange_coupling=SI(2.0e-11, "J/m"),

                  llg_gamma_G=SI(2.3245e5, "m/s A"),

                  llg_damping=SI(0.01),

                  anisotropy = anis)

Example #2

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File: run_nmag5_no_stt.py Project: whshangl/finmag

import math
from nmag.common import SI, degrees_per_ns, Tesla, mu0, at, every
from nmag.nmag5 import Simulation, MagMaterial

# Applied field
Happ_dir = [0, 0, 10]  # in mT

# Material definition
mat = MagMaterial("Py", Ms=SI(860e3, "A/m"),
                  exchange_coupling=SI(13e-12, "J/m"),
                  llg_gamma_G=SI(221017, "m/s A"),
                  llg_damping=SI(0.014))

sim = Simulation("nmag_no_stt", do_demag=False)
nm = SI(1e-9, "m")
sim.load_mesh("mesh.nmesh", [("cube", mat)], unit_length=nm)
sim.set_m([1, 0.01, 0.01])
sim.set_H_ext(Happ_dir, 0.001 * Tesla / mu0)

# Define the tolerances for the simulation
ns = SI(1e-9, "s")
sim.set_params(stopping_dm_dt=0 * degrees_per_ns,
               ts_rel_tol=1e-8, ts_abs_tol=1e-8,
               ts_pc_rel_tol=1e-3, ts_pc_abs_tol=1e-8,
               demag_dbc_rel_tol=1e-6, demag_dbc_abs_tol=1e-6)
sim.relax(save=[("averages", every("time", 0.01 * ns))],
          do=[("exit", at("time", 10 * ns))])

Example #3

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relaxed_m = "m0.h5"
film_centre = (5, 50, 50)

do_relaxation = not os.path.exists(relaxed_m)
ps = SI(1e-12, "s")

mat = MagMaterial("Py",
                  Ms=SI(0.86e6, "A/m"),
                  exchange_coupling=SI(13e-12, "J/m"),
                  llg_damping=SI(0.5 if do_relaxation else 0.01))

mat.sl_P = 0.0 if do_relaxation else 0.4  # Polarisation
mat.sl_d = SI(10e-9, "m")  # Free layer thickness

sim = Simulation(do_sl_stt=True)
sim.load_mesh(mesh_filename, [("region1", mat)], unit_length=SI(1e-9, "m"))


def m0(r):
    dx, dy, dz = tuple(ri - ri0 * 1e-9 for ri, ri0 in zip(r, film_centre))
    v = (1.0e-9, dz, -dy)
    vn = (1.0e-9**2 + dy * dy + dz * dz)**0.5
    return tuple(vi / vn for vi in v)


sim.set_m(m0)

sim.set_H_ext([0, 0, 0], SI("A/m"))

# Direction of the polarization