scr.8.20.1.13.h

Base Field

\(F = \) 2.1.3.2a1.1 \( = \mathbb{Q}_{ 2 }(a) = \mathbb{Q}_{ 2 }[x] / (x^{3} + 2 )\) View on LMFDB ↗

Description

supercuspidal ramified

Construction

\( \tau = \operatorname{Ind}^{I_K}_{I_F} \chi \), with \(K\) and \(\chi\) as below

Semistability defect

\( e = 8\)

Conductor exponent

\( v(N) = 20\)

Character Order

4

Inducing Field

The inertial type \(\tau\) is reducible, induced from a character of \(K = L(b)\), with \(b\) a root of \(x^{2} - a^{3} x + (a^{2} - 2a - 3)a \)

Underlying Character

Character \(\chi^A:\mathcal O_K^\times \to \mathbb C^\times\) with the following properties:

Order

4

Conductor exponent

14

Values on generators of \((\mathcal{O}_K/\mathfrak p^{ 14 })^\times/U_{\mathfrak{p}^{ 14 } }\) :

\(\begin{array}{l} \chi^A\left((2a^{2} + 3a - 2)b + 2a - 3 \right) &= i^{ 1 } \\ \chi^A\left(b + 1 \right) &= i^{ 2 } \\ \chi^A\left(2a^{2}b + 1 \right) &= i^{ 0 } \\ \chi^A\left((a^{2} + 4)b + 1 \right) &= i^{ 3 } \\ \chi^A\left((2a^{2} + 2)b - 3 \right) &= i^{ 1 } \end{array} \)

Inertia Polynomial

The following polynomial defines a field \(L\) such that \(L^{un}\) is the fixed field of \(\tau\).

\( x^{8} + (4a^{2} + 8a + 8 )x^{7} + (2a^{2} + 8 )x^{6} + (12a + 8 )x^{5} + (6a^{2} + 8a + 14 )x^{4} + (2a^{2} + 12a + 12 )x^{2} + (8a + 8 )x + 9a \)