\(\text{FR}^{9,6}_{12}\)

Fusion Rules

\[\begin{array}{|lllllllll|} \hline \mathbf{1} & \mathbf{2} & \mathbf{3} & \mathbf{4} & \mathbf{5} & \mathbf{6} & \mathbf{7} & \mathbf{8} & \mathbf{9} \\ \mathbf{2} & \mathbf{3} & \mathbf{1} & \mathbf{6} & \mathbf{4} & \mathbf{5} & \mathbf{8} & \mathbf{9} & \mathbf{7} \\ \mathbf{3} & \mathbf{1} & \mathbf{2} & \mathbf{5} & \mathbf{6} & \mathbf{4} & \mathbf{9} & \mathbf{7} & \mathbf{8} \\ \mathbf{4} & \mathbf{6} & \mathbf{5} & \mathbf{1}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{3}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{2}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{7} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{8} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{9} \\ \mathbf{5} & \mathbf{4} & \mathbf{6} & \mathbf{3}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{2}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{1}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{9} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{7} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{8} \\ \mathbf{6} & \mathbf{5} & \mathbf{4} & \mathbf{2}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{1}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{3}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{8} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{9} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{7} \\ \mathbf{7} & \mathbf{8} & \mathbf{9} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{7} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{9} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{8} & \mathbf{1}+\mathbf{4}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{2}+\mathbf{6}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{3}+\mathbf{5}+\mathbf{7}+\mathbf{8}+\mathbf{9} \\ \mathbf{8} & \mathbf{9} & \mathbf{7} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{8} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{7} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{9} & \mathbf{2}+\mathbf{6}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{3}+\mathbf{5}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{1}+\mathbf{4}+\mathbf{7}+\mathbf{8}+\mathbf{9} \\ \mathbf{9} & \mathbf{7} & \mathbf{8} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{9} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{8} & \mathbf{4}+\mathbf{5}+\mathbf{6}+\mathbf{7} & \mathbf{3}+\mathbf{5}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{1}+\mathbf{4}+\mathbf{7}+\mathbf{8}+\mathbf{9} & \mathbf{2}+\mathbf{6}+\mathbf{7}+\mathbf{8}+\mathbf{9} \\ \hline \end{array}\]

The fusion rules are invariant under the group generated by the following permutations:

\[\{(\mathbf{2} \ \mathbf{3}) (\mathbf{5} \ \mathbf{6}) (\mathbf{8} \ \mathbf{9})\}\]

The following particles form non-trivial sub fusion rings

Particles	SubRing
\(\{\mathbf{1},\mathbf{2},\mathbf{3}\}\)	\(\mathbb{Z}_3:\ \text{FR}^{3,2}_{1}\)

Quantum Dimensions

Particle	Numeric	Symbolic
\(\mathbf{1}\)	\(1.\)	\(1\)
\(\mathbf{2}\)	\(1.\)	\(1\)
\(\mathbf{3}\)	\(1.\)	\(1\)
\(\mathbf{4}\)	\(3.65859\)	\(\text{Root}\left[x^3-x^2-10 x+1,3\right]\)
\(\mathbf{5}\)	\(3.65859\)	\(\text{Root}\left[x^3-x^2-10 x+1,3\right]\)
\(\mathbf{6}\)	\(3.65859\)	\(\text{Root}\left[x^3-x^2-10 x+1,3\right]\)
\(\mathbf{7}\)	\(4.12842\)	\(\text{Root}\left[x^3-6 x^2+7 x+3,3\right]\)
\(\mathbf{8}\)	\(4.12842\)	\(\text{Root}\left[x^3-6 x^2+7 x+3,3\right]\)
\(\mathbf{9}\)	\(4.12842\)	\(\text{Root}\left[x^3-6 x^2+7 x+3,3\right]\)
\(\mathcal{D}_{FP}^2\)	\(94.2873\)	\(3 \text{Root}\left[x^3-x^2-10 x+1,3\right]^2+3 \text{Root}\left[x^3-6 x^2+7 x+3,3\right]^2+3\)

Characters

The symbolic character table is the following

\[\begin{array}{|ccccccccc|} \hline \mathbf{1} & \mathbf{2} & \mathbf{3} & \mathbf{6} & \mathbf{5} & \mathbf{4} & \mathbf{7} & \mathbf{9} & \mathbf{8} \\ \hline 1 & 1 & 1 & \text{Root}\left[x^3-x^2-10 x+1,3\right] & \text{Root}\left[x^3-x^2-10 x+1,3\right] & \text{Root}\left[x^3-x^2-10 x+1,3\right] & \text{Root}\left[x^3-6 x^2+7 x+3,3\right] & \text{Root}\left[x^3-6 x^2+7 x+3,3\right] & \text{Root}\left[x^3-6 x^2+7 x+3,3\right] \\ 1 & 1 & 1 & \text{Root}\left[x^3-x^2-10 x+1,2\right] & \text{Root}\left[x^3-x^2-10 x+1,2\right] & \text{Root}\left[x^3-x^2-10 x+1,2\right] & \text{Root}\left[x^3-6 x^2+7 x+3,1\right] & \text{Root}\left[x^3-6 x^2+7 x+3,1\right] & \text{Root}\left[x^3-6 x^2+7 x+3,1\right] \\ 1 & 1 & 1 & \text{Root}\left[x^3-x^2-10 x+1,1\right] & \text{Root}\left[x^3-x^2-10 x+1,1\right] & \text{Root}\left[x^3-x^2-10 x+1,1\right] & \text{Root}\left[x^3-6 x^2+7 x+3,2\right] & \text{Root}\left[x^3-6 x^2+7 x+3,2\right] & \text{Root}\left[x^3-6 x^2+7 x+3,2\right] \\ 1 & \frac{1}{2} \left(-1+i \sqrt{3}\right) & \frac{1}{2} \left(-1-i \sqrt{3}\right) & \frac{1}{2} \left(1-i \sqrt{3}\right) & \frac{1}{2} \left(1+i \sqrt{3}\right) & -1 & 0 & 0 & 0 \\ 1 & \frac{1}{2} \left(-1-i \sqrt{3}\right) & \frac{1}{2} \left(-1+i \sqrt{3}\right) & \frac{1}{2} \left(1+i \sqrt{3}\right) & \frac{1}{2} \left(1-i \sqrt{3}\right) & -1 & 0 & 0 & 0 \\ 1 & \frac{1}{2} \left(-1-i \sqrt{3}\right) & \frac{1}{2} \left(-1+i \sqrt{3}\right) & \frac{1}{2} \left(-1-i \sqrt{3}\right) & \frac{1}{2} \left(-1+i \sqrt{3}\right) & 1 & \sqrt{2} & \text{Root}\left[x^4+2 x^2+4,2\right] & \text{Root}\left[x^4+2 x^2+4,1\right] \\ 1 & \frac{1}{2} \left(-1+i \sqrt{3}\right) & \frac{1}{2} \left(-1-i \sqrt{3}\right) & \frac{1}{2} \left(-1+i \sqrt{3}\right) & \frac{1}{2} \left(-1-i \sqrt{3}\right) & 1 & \sqrt{2} & \text{Root}\left[x^4+2 x^2+4,1\right] & \text{Root}\left[x^4+2 x^2+4,2\right] \\ 1 & \frac{1}{2} \left(-1+i \sqrt{3}\right) & \frac{1}{2} \left(-1-i \sqrt{3}\right) & \frac{1}{2} \left(-1+i \sqrt{3}\right) & \frac{1}{2} \left(-1-i \sqrt{3}\right) & 1 & -\sqrt{2} & \text{Root}\left[x^4+2 x^2+4,4\right] & \text{Root}\left[x^4+2 x^2+4,3\right] \\ 1 & \frac{1}{2} \left(-1-i \sqrt{3}\right) & \frac{1}{2} \left(-1+i \sqrt{3}\right) & \frac{1}{2} \left(-1-i \sqrt{3}\right) & \frac{1}{2} \left(-1+i \sqrt{3}\right) & 1 & -\sqrt{2} & \text{Root}\left[x^4+2 x^2+4,3\right] & \text{Root}\left[x^4+2 x^2+4,4\right] \\ \hline \end{array}\]

The numeric character table is the following

\[\begin{array}{|rrrrrrrrr|} \hline \mathbf{1} & \mathbf{2} & \mathbf{3} & \mathbf{6} & \mathbf{5} & \mathbf{4} & \mathbf{7} & \mathbf{9} & \mathbf{8} \\ \hline 1.000 & 1.000 & 1.000 & 3.659 & 3.659 & 3.659 & 4.128 & 4.128 & 4.128 \\ 1.000 & 1.000 & 1.000 & 0.09911 & 0.09911 & 0.09911 & -0.3301 & -0.3301 & -0.3301 \\ 1.000 & 1.000 & 1.000 & -2.758 & -2.758 & -2.758 & 2.202 & 2.202 & 2.202 \\ 1.000 & -0.5000+0.8660 i & -0.5000-0.8660 i & 0.5000-0.8660 i & 0.5000+0.8660 i & -1.000 & 0 & 0 & 0 \\ 1.000 & -0.5000-0.8660 i & -0.5000+0.8660 i & 0.5000+0.8660 i & 0.5000-0.8660 i & -1.000 & 0 & 0 & 0 \\ 1.000 & -0.5000-0.8660 i & -0.5000+0.8660 i & -0.5000-0.8660 i & -0.5000+0.8660 i & 1.000 & 1.414 & -0.707+1.225 i & -0.707-1.225 i \\ 1.000 & -0.5000+0.8660 i & -0.5000-0.8660 i & -0.5000+0.8660 i & -0.5000-0.8660 i & 1.000 & 1.414 & -0.707-1.225 i & -0.707+1.225 i \\ 1.000 & -0.5000+0.8660 i & -0.5000-0.8660 i & -0.5000+0.8660 i & -0.5000-0.8660 i & 1.000 & -1.414 & 0.707+1.225 i & 0.707-1.225 i \\ 1.000 & -0.5000-0.8660 i & -0.5000+0.8660 i & -0.5000-0.8660 i & -0.5000+0.8660 i & 1.000 & -1.414 & 0.707-1.225 i & 0.707+1.225 i \\ \hline \end{array}\]

Modular Data

This fusion ring does not have any matching \(S\)-and \(T\)-matrices.

Adjoint Subring

The adjoint subring is the ring itself.

The upper central series is trivial.

Universal grading

This fusion ring allows only the trivial grading.

Categorifications

This fusion ring has no categorifications because of the extended cyclotomic criterion.

Data

Download links for numeric data:

• Multiplication Table
• Quantum Dimensions
• Character Table