def __init__(self, epsilon_r=11.68, tan_delta=7e-4, kappa=3.53e50, w=19e-6, s=11.5e-6, t=100e-9, w_g=200e-6, l=5e-3): ''' Attributes ---------- epsilon_r : float Relative permitivity of the substrat infarad per meter. tan_delta : float Loss tangent without dimension. kappa : float Conductivity of the metal layer insiemens per meter. w : float Width of the central line in meter. s : float Width of the gap separation in meter. t : float Thickness of the metal layer in meter. w_g : float Width of the ground plane in meter. l : float Length of the quarter wave resonator in meter. ''' self.l = l CPW.__init__(self, epsilon_r=epsilon_r, tan_delta=tan_delta, kappa=kappa, w=w, s=s, t=t, w_g=w_g,)
def __init__(self, epsilon_r = 11.68, tan_delta = 7e-4, kappa = 3.53e50, w = 19e-6, s = 11.5e-6, t = 100e-9, w_g = 200e-6, rho_n=3e-8, rrr = 2.4, delta=180e-6): ''' Attributes ---------- epsilon_r : float Relative permitivity of the substrat infarad per meter. tan_delta : float Loss tangent without dimension. kappa : float Conductivity of the metal layer insiemens per meter. w : float Width of the central line in meter. s : float Width of the gap separation in meter. t : float Thickness of the metal layer in meter. w_g : float Width of the ground plane in meter. rho_n : float Resistivity of the metal layer in ohm.m. rrr : float Residual-resistance ratio of the metallic layer. delta : float Superconductor gap in eV. ''' self.rho_n = rho_n self.rrr = rrr self.delta = delta CPW.__init__(self, epsilon_r=epsilon_r, tan_delta=tan_delta,kappa=kappa, w=w, s=s, t=t, w_g=w_g)
def __init__(self, epsilon_r=11.68, tan_delta=7e-4, kappa=3.53e50, w=19e-6, s=11.5e-6, t=100e-9, w_g=200e-6, l=5e-3): ''' Attributes ---------- epsilon_r : float Relative permitivity of the substrat infarad per meter. tan_delta : float Loss tangent without dimension. kappa : float Conductivity of the metal layer insiemens per meter. w : float Width of the central line in meter. s : float Width of the gap separation in meter. t : float Thickness of the metal layer in meter. w_g : float Width of the ground plane in meter. l : float Length of the quarter wave resonator in meter. ''' self.l = l CPW.__init__( self, epsilon_r=epsilon_r, tan_delta=tan_delta, kappa=kappa, w=w, s=s, t=t, w_g=w_g, )