ex.24.3.1.1_3_5.a
Base Field
\(F = \) 2.1.2.2a1.2 \( = \mathbb{Q}_{ 2 }(a) = \mathbb{Q}_{ 2 }[x] / (x^{2} + 2 x + 3\cdot 2 )\)
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Description
exceptional, SL(2,3)
Construction
Extension to \(I_F\) of \(
\tau = \operatorname{Ind}^{I_K}_{I_L} \chi
\), with \(L, K\) and \(\chi\) as below
Semistability defect
\( e = 24\)
Conductor exponent
\( v(N) = 3\)
Character Order
4
Triply Field
The inertial type \(\tau\) becomes an induction (triply imprimitive) over:
\( L = F(\mu_3, b) \), with \(\mu_3\) a root of \(x^2+x+1\) and \(b\) a root of \(x^{3} + a \)
Inducing Field
The inertial type \(\tau\) becomes reducible over
\(K = L(c)\), \(c\) a root of \(x^{2} + ((70425033346012744527594622521a - 70425033346012744527594622521)b )x + (70425033346012744527594622521a - 70425033346012744527594622521)b \)
Underlying Character
Character \(\chi^A:\mathcal O_K^\times \to \mathbb C^\times\) with the following properties:
Order
4
Conductor exponent
3
Values on generators of
\((\mathcal{O}_K/\mathfrak p^{ 3 })^\times/U_{\mathfrak{p}^{ 3 } }\)
:
\(\begin{array}{l}
\chi^A\left(\mu_3c + 1 \right) &= i^{ 1 }
\\
\chi^A\left((((2a + 2)\mu_3 + (2a + 2))b^{2} + ((-2a + 2)\mu_3 + 4a)\cdot b + ((2a - 2)\mu_3 + (4a + 4)))c + ((a - 3)\mu_3 + (a + 4))b^{2} + ((-3a + 2)\mu_3 + 4)b - 3a\cdot \mu_3 + 3 \right) &= i^{ 0 }
\\
\chi^A\left(((4a\cdot \mu_3 - a)b^{2} - 2\mu_3b + 2)c + (3\mu_3 + (4a + 2))b^{2} + (-3a\cdot \mu_3 - 2a + 4)b + (-a + 2)\mu_3 + 4a + 3 \right) &= i^{ 0 }
\\
\chi^A\left(((4a + 3)\mu_3b^{2} - a\cdot \mu_3b + (-3a + 2)\mu_3)c - a\cdot \mu_3b + (-2a + 4)\mu_3 + 1 \right) &= i^{ 0 }
\\
\chi^A\left(((4a\cdot \mu_3 + (4a - 1))b^{2} + ((4a + 4)\mu_3 + 3a)\cdot b + ((2a + 2)\mu_3 + a))c + (2\mu_3 - 2)b^{2} + (3a\cdot \mu_3 - 2a)\cdot b + (4a - 2)\mu_3 + 4a - 1 \right) &= i^{ 0 }
\\
\chi^A\left((4b^{2} - \mu_3 + 3)c + 4b^{2} - \mu_3 + 4a + 3 \right) &= i^{ 0 }
\\
\chi^A\left((((4a + 2)\mu_3 + (a + 4))b^{2} + ((-2a + 2)\mu_3 + 4a)\cdot b + (2a + 4)\mu_3)c + ((4a - 1)\mu_3 + (4a - 2))b^{2} + ((a + 4)\mu_3 + 4)b + (3a - 2)\mu_3 + 3 \right) &= i^{ 0 }
\\
\chi^A\left(((2\mu_3 + (4a + 2))b^{2} + ((4a + 2)\mu_3 + (2a + 4))b - 2\mu_3 + 2a)\cdot c + ((a - 3)\mu_3 + 4a)\cdot b^{2} + (-2a - 1)\mu_3b + (-3a + 1)\mu_3 + 4a \right) &= i^{ 0 }
\\
\chi^A\left((((4a + 4)\mu_3 - 2a + 2)b^{2} + ((2a + 4)\mu_3 - 2a + 2)b + ((-2a - 2)\mu_3 + 4a))\cdot c + ((3a + 1)\mu_3 - 3a - 1)b^{2} + ((-2a - 3)\mu_3 - 1)b + (2a + 4)\mu_3 + 3 \right) &= i^{ 2 }
\\
\chi^A\left(((4a + 4)\mu_3b^{2} + (4a\cdot \mu_3 + 4)b + ((4a + 4)\mu_3 + 4))c + ((-a + 1)\mu_3 + (a - 1))b^{2} + ((2a - 3)\mu_3 + 3)b + (-2a + 4)\mu_3 + 3 \right) &= i^{ 2 }
\\
\chi^A\left((((2a + 2)\mu_3 + (3a + 2))b^{2} + ((2a + 2)\mu_3 - 2a + 4)b - 2\mu_3 + 4a + 2)c + ((4a - 3)\mu_3 + (2a + 4))b^{2} + (-2a\cdot \mu_3 - a + 2)b + 3a\cdot \mu_3 + 2a + 3 \right) &= i^{ 0 }
\\
\chi^A\left((((-2a + 4)\mu_3 + (a + 3))b^{2} + ((3a + 4)\mu_3 - 2a + 2)b + ((3a - 2)\mu_3 + (a + 4)))c + ((4a + 4)\mu_3 - a - 1)b^{2} + ((2a + 3)\mu_3 + (2a - 1))b + (4a - 2)\mu_3 - a + 1 \right) &= i^{ 2 }
\\
\chi^A\left((((2a + 2)\mu_3 + 4a)\cdot b^{2} + (4\mu_3 + (4a + 4))b + 4a)\cdot c + ((2a + 4)\mu_3 - 2a)\cdot b^{2} + ((4a + 2)\mu_3 - 2)b + 1 \right) &= i^{ 0 }
\\
\chi^A\left((((-2a - 2)\mu_3 + (2a + 4))b^{2} + ((4a + 4)\mu_3 - a + 2)b + ((4a + 4)\mu_3 + (2a + 4)))c + (4a\cdot \mu_3 - 2)b^{2} + ((4a + 4)\mu_3 + 2a)\cdot b + 4a + 1 \right) &= i^{ 0 }
\end{array}
\)
Inertia Polynomial
The following polynomial defines a field \(L\) such that \(L^{un}\) is the fixed field of \(\tau\).
\( x^{48} + (8a + 14 )x^{47} + (20a + 14 )x^{46} + (17a + 2 )x^{45} + 28a x^{44} + 20a x^{43} + (2a + 14 )x^{42} + (4a + 4 )x^{41} + 29a x^{40} + (22a + 24 )x^{39} + (28a + 26 )x^{38} + 18a x^{37} + (29a + 12 )x^{36} + 18 x^{35} + (24a + 8 )x^{34} + (2a + 26 )x^{33} + (14a + 30 )x^{32} + (8a + 16 )x^{31} + (16a + 4 )x^{30} + (28a + 22 )x^{29} + (2a + 18 )x^{28} + (30a + 16 )x^{27} + (22a + 18 )x^{26} + 30 x^{25} + (12a + 2 )x^{24} + (24a + 16 )x^{23} + (12a + 26 )x^{22} + 2a x^{21} + (10a + 20 )x^{20} + (18a + 20 )x^{19} + 16 x^{18} + (8a + 4 )x^{17} + (30a + 2 )x^{16} + (8a + 12 )x^{15} + 8a x^{14} + (20a + 4 )x^{13} + (22a + 12 )x^{12} + 16a x^{11} + (12a + 20 )x^{10} + (8a + 8 )x^{9} + (6a + 12 )x^{8} + (24a + 16 )x^{7} + 30a x^{6} + (20a + 8 )x^{5} + (18a + 4 )x^{4} + (10a + 8 )x^{3} + 28 x^{2} + (28a + 8 )x + 18a + 18 \)