def compute_field(self, t=0, spin=None): if spin is not None: m = spin else: m = self.spin micro_clib.compute_anisotropy_micro( m, self.field, self.energy, self.Ms_inv, self._Ku, self._axis, self.nx, self.ny, self.nz ) return self.field
def compute_field(self, t=0, spin=None): if spin is not None: m = spin else: m = self.spin micro_clib.compute_anisotropy_micro(m, self.field, self.energy, self.Ms_inv, self._Ku, self._axis, self.nx, self.ny, self.nz) return self.field
def compute_field(self, t=0): micro_clib.compute_anisotropy_micro(self.spin, self.field, self.energy, self.Ms_inv, self._Ku, self._axis, self.nx, self.ny, self.nz) return self.field
def compute_field(self, t=0): micro_clib.compute_anisotropy_micro( self.spin, self.field, self.energy, self.Ms_inv, self._Ku, self._axis, self.nx, self.ny, self.nz ) return self.field