def flux_parabola(self):
flux_over_flux0 = qdt.call_func("flux_over_flux0",
voltage=self.yoko,
offset=self.offset,
flux_factor=self.flux_factor)
Ej = qdt.call_func("Ej", flux_over_flux0=flux_over_flux0)
return qdt._get_fq(Ej, qdt.Ec)
def magabs_colormesh():
flux_over_flux0=qdt.call_func("flux_over_flux0", voltage=a.yoko, offset=c.offset, flux_factor=c.flux_factor)
b.colormesh("magabs", a.time*1e6, flux_over_flux0[:-3], a.MagAbs[:-3])
#b.line_plot("flux_parabola", c.yoko, c.flux_parabola, color="orange", alpha=0.4)
#b.set_ylim(4.4e9, 4.5e9)
b.xlabel="Time (us)"
b.ylabel="Magnitude (abs)"
b.title="Reflection vs time"
def magabs_colormesh():
flux_over_flux0 = qdt.call_func("flux_over_flux0",
voltage=a.yoko,
offset=c.offset,
flux_factor=c.flux_factor)
b.colormesh("magabs", a.time * 1e6, flux_over_flux0[:-3], a.MagAbs[:-3])
#b.line_plot("flux_parabola", c.yoko, c.flux_parabola, color="orange", alpha=0.4)
#b.set_ylim(4.4e9, 4.5e9)
b.xlabel = "Time (us)"
b.ylabel = "Magnitude (abs)"
b.title = "Reflection vs time"
def flux_parabola(self):
return qdt.call_func("flux_parabola",
voltage=a.yoko,
offset=self.offset,
flux_factor=self.flux_factor,
Ec=qdt.Ec)
def flux_parabola(self):
flux_over_flux0=qdt.call_func("flux_over_flux0", voltage=self.yoko, offset=self.offset, flux_factor=self.flux_factor)
Ej=qdt.call_func("Ej", flux_over_flux0=flux_over_flux0)
return qdt._get_fq(Ej, qdt.Ec)
def flux_parabola(self):
return qdt.call_func("flux_parabola", voltage=a.yoko, offset=self.offset, flux_factor=self.flux_factor, Ec=qdt.Ec)