def __init__(self): self.at = {} self.at['ts'] = 0 #TODO: Change later self.at['mesh'], self.at['pic'], self.at['e_field'] = mesh_file_reader( '2020_11_05_MR_1.txt') self.at['mesh'].print() self.at['electrons'] = Electron_SW( 0.0, c.E_SPWT, c.E_SIZE, c.DIM, c.DIM, self.at['mesh'].accPoints, self.at['mesh'].overall_location_sat, c.NUM_TRACKED) self.at['photoelectrons'] = Photoelectron( c.PHE_T, c.PHE_FLUX, 0.0, c.PHE_SPWT, c.PHE_SIZE, c.DIM, c.DIM, self.at['mesh'].accPoints, self.at['mesh'].overall_location_sat, c.NUM_TRACKED) self.at['see'] = Secondary_Emission__Electron( c.SEE_T, 0.0, c.SEE_SPWT, c.SEE_SIZE, c.DIM, c.DIM, self.at['mesh'].accPoints, self.at['mesh'].overall_location_sat, c.NUM_TRACKED) self.at['protons'] = Proton_SW(0.0, c.P_SPWT, c.P_SIZE, c.DIM, c.DIM, self.at['mesh'].accPoints, self.at['mesh'].overall_location_sat, c.NUM_TRACKED) #self.at['user'] = User_Defined(c.P_DT, -c.QE, c.MP, 0, c.P_SPWT, 1, c.DIM, c.DIM, self.at['mesh'].nPoints, 0, "1") self.at['m_field'] = Constant_Magnetic_Field_recursive( self.at['pic'], c.B_DIM, [], True) self.at['part_solver'] = Boris_Push(self.at['pic'], [self.at['electrons'].name, self.at['photoelectrons'].name, self.at['see'].name, self.at['protons'].name],\ [self.at['electrons'].part_values.max_n, self.at['photoelectrons'].part_values.max_n, self.at['see'].part_values.max_n, self.at['protons'].part_values.max_n],\ [self.at['electrons'].vel_dim, self.at['photoelectrons'].vel_dim, self.at['see'].vel_dim, self.at['protons'].vel_dim])
def __init__(self): self.at = {} self.at['ts'] = 0 #TODO: Change later self.at['mesh'], self.at['pic'], self.at['e_field'] = mesh_file_reader( '2021_03_19.txt') self.at['mesh'].print() self.at['electrons'] = Electron_SW(0.0, c.E_SPWT, c.E_SIZE, c.DIM, c.DIM, self.at['mesh'].nPoints, self.at['mesh'].location_sat, c.NUM_TRACKED) self.at['protons'] = Proton_SW(0.0, c.P_SPWT, c.P_SIZE, c.DIM, c.DIM, self.at['mesh'].nPoints, self.at['mesh'].location_sat, c.NUM_TRACKED) #self.at['user'] = User_Defined(c.P_DT, -c.QE, c.MP, 0, c.P_SPWT, 1, c.DIM, c.DIM, self.at['mesh'].nPoints, 0, "1") #self.at['m_field'] = Constant_Magnetic_Field_recursive(self.at['pic'], c.B_DIM, [], True) self.at['m_field'] = Constant_Magnetic_Field(self.at['pic'], c.B_DIM) self.at['part_solver'] = Boris_Push(self.at['pic'], [self.at['electrons'].name, self.at['protons'].name],\ [self.at['electrons'].part_values.max_n, self.at['protons'].part_values.max_n],\ [self.at['electrons'].vel_dim, self.at['protons'].vel_dim])