def func1(self, par):
X = self.Xdata1() - par[3] / 2
T = self.T(par)
invQ = TLS.invQ(T)
Gamma_hz = 52e6 * invQ
return numpy.real(Gamma_hz +
dataAnalysis.deltaGamma(X, par[2], par[3], par[4]))
def func1(self, par):
X = self.Xdata1() - par[3] / 2
T = self.T(par)
invQ = TLS.invQ(
T
) #1.0/TLS.QClamp + TLS.invQres(T) + TLS.invQrelax(T) -(TLS.invQres(par[0])+ TLS.invQrelax(par[0]))
Gamma_hz = invQ * SampleConstants.fm
return numpy.real(Gamma_hz +
dataAnalysis.deltaGamma(X, par[2], par[3], par[4]))
def func1(self,par):
X = self.Xdata1()-par[3]/2
T = self.T(par)
invQ = TLS.invQ(T)#1.0/TLS.QClamp + TLS.invQres(T) + TLS.invQrelax(T) -(TLS.invQres(par[0])+ TLS.invQrelax(par[0]))
Gamma_hz = invQ*SampleConstants.fm
return numpy.real(Gamma_hz+dataAnalysis.deltaGamma(X,par[2],par[3],par[4]))
def func1(self,par):
X = self.Xdata1()-par[3]/2
T = self.T(par)
invQ = TLS.invQ(T)
Gamma_hz = 52e6*invQ
return numpy.real(Gamma_hz+dataAnalysis.deltaGamma(X,par[2],par[3],par[4]))
def func1(self,par):
X = self.Xdata1()-par[3]/2
return par[0]+dataAnalysis.deltaGamma(X,par[2],par[3],par[4])
def func1(self, par):
X = self.Xdata1() - par[3] / 2
return par[0] + dataAnalysis.deltaGamma(X, par[2], par[3], par[4])