Differential mass squared cross section for the $3\pi$ channel presented here as the cross section multipled by the bin width. The data are normalised to a branching ratio of 9.041%

Differential mass squared cross section for the $3\pi\pi^0$ channel presented here as the cross section multipled by the bin width. The data are normalised to a branching ratio of 4.590%

Invariant mass squared distribution for the Non-Strange Vector (V) contribution presented here as the cross section multipled by the bin width. The data are scaled by 100 and normalised to a branching ratio of 31.747%

Invariant mass squared distribution for the Axial-Vector (A) contribution presented here as the cross section multipled by the bin width. The data are scaled by 100 and normalised to a branching ratio of 19.369%

Invariant mass squared distribution for the Non-Strange Vector plus Axial-Vector (V+A) contribution presented here as the cross section multipled by the bin width. The data are scaled by 100 and normalised to a branching ratio of 51.116%

Invariant mass squared distribution for the Non-Strange Vector minus Axial-Vector (V-A) contribution presented here as the cross section multipled by the bin width. The data are scaled by 100 and normalised to a branching ratio of 12.379%

Statistical error correlation matrix for the $\pi\pi^0$ channel

Systematic error correlation matrix for the $\pi\pi^0$ channel

Statistical error correlation matrix for the $\pi 2\pi^0$ channel

Systematic error correlation matrix for the $\pi 2\pi^0$ channel

Statistical error correlation matrix for the $\pi 3\pi^0$ channel

Systematic error correlation matrix for the $\pi 3\pi^0$ channel

Statistical error correlation matrix for the $3\pi$ channel

Systematic error correlation matrix for the $3\pi$ channel

Statistical error correlation matrix for the $3\pi\pi^0$ channel

Systematic error correlation matrix for the $3\pi\pi^0$ channel

Total error correlation matrix for the V channel

Total error correlation matrix for the A channel

Total error correlation matrix for the V+A channel

Total error correlation matrix for the V-A channel

Invariant mass-squared distributions of the decay $\tau^- \to 3\pi^- 2\pi^+ \nu_\tau$. The error has been set to zero if it is smaller than the point size. A dash indicates a data point lying outside the plot range.

Invariant mass-squared distributions of the decay $\tau^- \to 2\pi^- \pi^+ 2\pi^0 \nu_\tau$. The error has been set to zero if it is smaller than the point size. A dash indicates a data point lying outside the plot range.

Unfolded (physical) invariant mass-squared spectra of the $\tau$ final state $2\pi^- \pi^+ \nu_\tau$. The error has been set to zero if it is smaller than the point size.

Unfolded (physical) invariant mass-squared spectra of the $\tau$ final state $\pi^- 2\pi^0 \nu_\tau$. The error has been set to zero if it is smaller than the point size.

Invariant mass-squared distributions of the $2h^- h^+ 3\pi^0 \nu_{\tau}$ decay channel.

Invariant mass-squared distribution of the $3h^- 2h^+ \pi^0 \nu_{\tau}$ decay channel.

$\tau^- \to \pi^- \pi^0 \nu_{\tau}$ invariant mass spectrum. The error has been set to zero if it is smaller than the point size. A dash indicates a data point lying outside the plot range.

Charged particle PT distribution.

Charged particle PT**2 distribution.

Charged particle PTIN distribution.

Charged particle PTOUT distribution.

Charged particle MEAN(PTIN**2) distribution.

Charged particle MEAN(PTOUT**2) distribution.

Charged particle flow with respect to the Sphericity axis.

Energy flow with respect to the Sphericity axis.

Thrust distribution.

Major distribution.

Minor distribution.

Oblateness distribution.

Sphericity distribution.

Aplanarity distribution.

QX distribution.

Q2-Q1 distribution.

Slim-jet scaled mass distribution.

Broad-jet scaled mass distribution.

Jet scaled mass difference.