Defining polynomial
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$( x^{10} + 2 x^{6} + 2 x^{5} + 2 x^{4} + x + 2 )^{2} + 3$
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Invariants
| Base field: | $\Q_{3}$ |
|
| Degree $d$: | $20$ |
|
| Ramification index $e$: | $2$ |
|
| Residue field degree $f$: | $10$ |
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| Discriminant exponent $c$: | $10$ |
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| Discriminant root field: | $\Q_{3}$ | |
| Root number: | $1$ | |
| $\Aut(K/\Q_{3})$ $=$ $\Gal(K/\Q_{3})$: | $C_2\times C_{10}$ | |
| This field is Galois and abelian over $\Q_{3}.$ | ||
| Visible Artin slopes: | $[\ ]$ | |
| Visible Swan slopes: | $[\ ]$ | |
| Means: | $\langle\ \rangle$ | |
| Rams: | $(\ )$ | |
| Jump set: | $[1]$ | |
| Roots of unity: | $177144 = (3^{ 10 } - 1) \cdot 3$ |
|
Intermediate fields
| $\Q_{3}(\sqrt{2})$, $\Q_{3}(\sqrt{3})$, $\Q_{3}(\sqrt{3\cdot 2})$, 3.2.2.2a1.2, 3.5.1.0a1.1, 3.10.1.0a1.1, 3.5.2.5a1.1, 3.5.2.5a1.2 |
Fields in the database are given up to isomorphism. Isomorphic intermediate fields are shown with their multiplicities.
Canonical tower
| Unramified subfield: | 3.10.1.0a1.1 $\cong \Q_{3}(t)$ where $t$ is a root of
\( x^{10} + 2 x^{6} + 2 x^{5} + 2 x^{4} + x + 2 \)
|
|
| Relative Eisenstein polynomial: |
\( x^{2} + 3 \)
$\ \in\Q_{3}(t)[x]$
|
Ramification polygon
| Residual polynomials: | $z + 2$ |
| Associated inertia: | $1$ |
| Indices of inseparability: | $[0]$ |
Invariants of the Galois closure
| Galois degree: | $20$ |
| Galois group: | $C_2\times C_{10}$ (as 20T3) |
| Inertia group: | Intransitive group isomorphic to $C_2$ |
| Wild inertia group: | $C_1$ |
| Galois unramified degree: | $10$ |
| Galois tame degree: | $2$ |
| Galois Artin slopes: | $[\ ]$ |
| Galois Swan slopes: | $[\ ]$ |
| Galois mean slope: | $0.5$ |
| Galois splitting model: | not computed |