6.1 tau=2

6.1.1 Simplified fit local rawi

The fit formula with tau

\[ \begin{cases} r_{AWI}^{loc}=P[2] (\eta- \eta_{cr}) +P[3] (m_0-m_{cr}) \\ m_{PCAC}^{loc}= +P[4] (m_0-m_{cr}) + P[5] \mu\,. \end{cases} \] In the above fit we are treating \(\eta_{cr}\) and \(m_{cr}\) as fits parameters, so \[ \eta_{cr}=P[0]\\ m_{cr}=P[1] \]

\[\begin{gather} \chi^2/d.o.f.=1.49833 \\ P[0]=-2.11796\pm (0.015) \\ P[1]=-0.0480963\pm (0.0011) \\ P[2]=0.46019\pm (0.025) \\ P[3]=-3.83934\pm (1.2) \\ P[4]=1.57916\pm (0.042) \\ P[5]=-0.150468\pm (0.061) \\ \end{gather}\] {\[\begin{gather} C=\begin{pmatrix} 1& 0.00902& 0.00155& 0.00824& 0.00543& 0.00858\\ 0.00902& 1& -7.37e-05& 3.09e-05& 0.000462& 0.00105\\ 0.00155& -7.37e-05& 1& -0.0101& -0.00277& -0.00103\\ 0.00824& 3.09e-05& -0.0101& 1& 0.289& 0.0096\\ 0.00543& 0.000462& -0.00277& 0.289& 1& 0.0103\\ 0.00858& 0.00105& -0.00103& 0.0096& 0.0103& 1\\ \end{pmatrix} \end{gather}\]}