Normalized defining polynomial
\( x^{8} - 3x^{7} + 3x^{6} - 3x^{5} - x^{4} + 6x^{3} + 6x^{2} + 3x + 1 \)
Invariants
Degree: | $8$ | sage: K.degree()
gp: poldegree(K.pol)
magma: Degree(K);
oscar: degree(K)
| |
Signature: | $[0, 4]$ | sage: K.signature()
gp: K.sign
magma: Signature(K);
oscar: signature(K)
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Discriminant: | \(190563597\) \(\medspace = 3^{4}\cdot 7^{3}\cdot 19^{3}\) | sage: K.disc()
gp: K.disc
magma: OK := Integers(K); Discriminant(OK);
oscar: OK = ring_of_integers(K); discriminant(OK)
| |
Root discriminant: | \(10.84\) | sage: (K.disc().abs())^(1./K.degree())
gp: abs(K.disc)^(1/poldegree(K.pol))
magma: Abs(Discriminant(OK))^(1/Degree(K));
oscar: (1.0 * dK)^(1/degree(K))
| |
Galois root discriminant: | $3^{1/2}7^{1/2}19^{3/4}\approx 41.703724995169544$ | ||
Ramified primes: | \(3\), \(7\), \(19\) | sage: K.disc().support()
gp: factor(abs(K.disc))[,1]~
magma: PrimeDivisors(Discriminant(OK));
oscar: prime_divisors(discriminant((OK)))
| |
Discriminant root field: | \(\Q(\sqrt{133}) \) | ||
$\card{ \Aut(K/\Q) }$: | $2$ | sage: K.automorphisms()
magma: Automorphisms(K);
oscar: automorphisms(K)
| |
This field is not Galois over $\Q$. | |||
This is not a CM field. |
Integral basis (with respect to field generator \(a\))
$1$, $a$, $a^{2}$, $a^{3}$, $a^{4}$, $a^{5}$, $a^{6}$, $\frac{1}{23}a^{7}+\frac{4}{23}a^{6}+\frac{8}{23}a^{5}+\frac{7}{23}a^{4}+\frac{2}{23}a^{3}-\frac{3}{23}a^{2}+\frac{8}{23}a-\frac{10}{23}$
Monogenic: | Not computed | |
Index: | $1$ | |
Inessential primes: | None |
Class group and class number
Trivial group, which has order $1$
Unit group
Rank: | $3$ | sage: UK.rank()
gp: K.fu
magma: UnitRank(K);
oscar: rank(UK)
| |
Torsion generator: | \( -\frac{2}{23} a^{7} + \frac{15}{23} a^{6} - \frac{39}{23} a^{5} + \frac{55}{23} a^{4} - \frac{50}{23} a^{3} + \frac{6}{23} a^{2} + \frac{30}{23} a + \frac{20}{23} \) (order $6$) | sage: UK.torsion_generator()
gp: K.tu[2]
magma: K!f(TU.1) where TU,f is TorsionUnitGroup(K);
oscar: torsion_units_generator(OK)
| |
Fundamental units: | $\frac{20}{23}a^{7}-\frac{58}{23}a^{6}+\frac{45}{23}a^{5}-\frac{21}{23}a^{4}-\frac{75}{23}a^{3}+\frac{170}{23}a^{2}+\frac{114}{23}a+\frac{30}{23}$, $\frac{5}{23}a^{7}-\frac{26}{23}a^{6}+\frac{63}{23}a^{5}-\frac{103}{23}a^{4}+\frac{102}{23}a^{3}-\frac{38}{23}a^{2}+\frac{17}{23}a-\frac{4}{23}$, $\frac{44}{23}a^{7}-\frac{146}{23}a^{6}+\frac{168}{23}a^{5}-\frac{152}{23}a^{4}-\frac{27}{23}a^{3}+\frac{305}{23}a^{2}+\frac{168}{23}a-\frac{3}{23}$ | sage: UK.fundamental_units()
gp: K.fu
magma: [K|fUK(g): g in Generators(UK)];
oscar: [K(fUK(a)) for a in gens(UK)]
| |
Regulator: | \( 23.0819036353 \) | sage: K.regulator()
gp: K.reg
magma: Regulator(K);
oscar: regulator(K)
|
Class number formula
\[ \begin{aligned}\lim_{s\to 1} (s-1)\zeta_K(s) =\mathstrut & \frac{2^{r_1}\cdot (2\pi)^{r_2}\cdot R\cdot h}{w\cdot\sqrt{|D|}}\cr \approx\mathstrut &\frac{2^{0}\cdot(2\pi)^{4}\cdot 23.0819036353 \cdot 1}{6\cdot\sqrt{190563597}}\cr\approx \mathstrut & 0.434330047775 \end{aligned}\]
Galois group
A solvable group of order 64 |
The 16 conjugacy class representatives for $(C_4^2 : C_2):C_2$ |
Character table for $(C_4^2 : C_2):C_2$ |
Intermediate fields
\(\Q(\sqrt{-3}) \), 4.0.1197.1 |
Fields in the database are given up to isomorphism. Isomorphic intermediate fields are shown with their multiplicities.
Sibling fields
Degree 8 siblings: | data not computed |
Degree 16 siblings: | data not computed |
Degree 32 siblings: | data not computed |
Minimal sibling: | This field is its own minimal sibling |
Frobenius cycle types
$p$ | $2$ | $3$ | $5$ | $7$ | $11$ | $13$ | $17$ | $19$ | $23$ | $29$ | $31$ | $37$ | $41$ | $43$ | $47$ | $53$ | $59$ |
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Cycle type | ${\href{/padicField/2.8.0.1}{8} }$ | R | ${\href{/padicField/5.8.0.1}{8} }$ | R | ${\href{/padicField/11.4.0.1}{4} }^{2}$ | ${\href{/padicField/13.2.0.1}{2} }^{2}{,}\,{\href{/padicField/13.1.0.1}{1} }^{4}$ | ${\href{/padicField/17.8.0.1}{8} }$ | R | ${\href{/padicField/23.2.0.1}{2} }^{4}$ | ${\href{/padicField/29.8.0.1}{8} }$ | ${\href{/padicField/31.2.0.1}{2} }^{2}{,}\,{\href{/padicField/31.1.0.1}{1} }^{4}$ | ${\href{/padicField/37.4.0.1}{4} }{,}\,{\href{/padicField/37.2.0.1}{2} }^{2}$ | ${\href{/padicField/41.4.0.1}{4} }^{2}$ | ${\href{/padicField/43.4.0.1}{4} }^{2}$ | ${\href{/padicField/47.8.0.1}{8} }$ | ${\href{/padicField/53.8.0.1}{8} }$ | ${\href{/padicField/59.4.0.1}{4} }^{2}$ |
In the table, R denotes a ramified prime. Cycle lengths which are repeated in a cycle type are indicated by exponents.
Local algebras for ramified primes
$p$ | Label | Polynomial | $e$ | $f$ | $c$ | Galois group | Slope content |
---|---|---|---|---|---|---|---|
\(3\) | 3.4.2.1 | $x^{4} + 4 x^{3} + 14 x^{2} + 20 x + 13$ | $2$ | $2$ | $2$ | $C_2^2$ | $[\ ]_{2}^{2}$ |
3.4.2.1 | $x^{4} + 4 x^{3} + 14 x^{2} + 20 x + 13$ | $2$ | $2$ | $2$ | $C_2^2$ | $[\ ]_{2}^{2}$ | |
\(7\) | 7.2.1.2 | $x^{2} + 7$ | $2$ | $1$ | $1$ | $C_2$ | $[\ ]_{2}$ |
7.2.1.1 | $x^{2} + 21$ | $2$ | $1$ | $1$ | $C_2$ | $[\ ]_{2}$ | |
7.2.0.1 | $x^{2} + 6 x + 3$ | $1$ | $2$ | $0$ | $C_2$ | $[\ ]^{2}$ | |
7.2.1.2 | $x^{2} + 7$ | $2$ | $1$ | $1$ | $C_2$ | $[\ ]_{2}$ | |
\(19\) | 19.2.0.1 | $x^{2} + 18 x + 2$ | $1$ | $2$ | $0$ | $C_2$ | $[\ ]^{2}$ |
19.2.0.1 | $x^{2} + 18 x + 2$ | $1$ | $2$ | $0$ | $C_2$ | $[\ ]^{2}$ | |
19.4.3.1 | $x^{4} + 19$ | $4$ | $1$ | $3$ | $D_{4}$ | $[\ ]_{4}^{2}$ |
Artin representations
Label | Dimension | Conductor | Artin stem field | $G$ | Ind | $\chi(c)$ | |
---|---|---|---|---|---|---|---|
* | 1.1.1t1.a.a | $1$ | $1$ | \(\Q\) | $C_1$ | $1$ | $1$ |
1.7.2t1.a.a | $1$ | $ 7 $ | \(\Q(\sqrt{-7}) \) | $C_2$ (as 2T1) | $1$ | $-1$ | |
1.399.2t1.a.a | $1$ | $ 3 \cdot 7 \cdot 19 $ | \(\Q(\sqrt{-399}) \) | $C_2$ (as 2T1) | $1$ | $-1$ | |
1.57.2t1.a.a | $1$ | $ 3 \cdot 19 $ | \(\Q(\sqrt{57}) \) | $C_2$ (as 2T1) | $1$ | $1$ | |
1.21.2t1.a.a | $1$ | $ 3 \cdot 7 $ | \(\Q(\sqrt{21}) \) | $C_2$ (as 2T1) | $1$ | $1$ | |
* | 1.3.2t1.a.a | $1$ | $ 3 $ | \(\Q(\sqrt{-3}) \) | $C_2$ (as 2T1) | $1$ | $-1$ |
1.19.2t1.a.a | $1$ | $ 19 $ | \(\Q(\sqrt{-19}) \) | $C_2$ (as 2T1) | $1$ | $-1$ | |
1.133.2t1.a.a | $1$ | $ 7 \cdot 19 $ | \(\Q(\sqrt{133}) \) | $C_2$ (as 2T1) | $1$ | $1$ | |
2.399.4t3.b.a | $2$ | $ 3 \cdot 7 \cdot 19 $ | 4.0.1197.2 | $D_{4}$ (as 4T3) | $1$ | $0$ | |
2.2527.4t3.a.a | $2$ | $ 7 \cdot 19^{2}$ | 4.2.336091.1 | $D_{4}$ (as 4T3) | $1$ | $0$ | |
2.7581.4t3.c.a | $2$ | $ 3 \cdot 7 \cdot 19^{2}$ | 4.4.432117.1 | $D_{4}$ (as 4T3) | $1$ | $2$ | |
2.22743.4t3.d.a | $2$ | $ 3^{2} \cdot 7 \cdot 19^{2}$ | 4.2.3024819.2 | $D_{4}$ (as 4T3) | $1$ | $0$ | |
2.7581.4t3.d.a | $2$ | $ 3 \cdot 7 \cdot 19^{2}$ | 4.0.432117.2 | $D_{4}$ (as 4T3) | $1$ | $-2$ | |
* | 2.399.4t3.a.a | $2$ | $ 3 \cdot 7 \cdot 19 $ | 4.0.1197.1 | $D_{4}$ (as 4T3) | $1$ | $0$ |
4.57471561.8t26.c.a | $4$ | $ 3^{2} \cdot 7^{2} \cdot 19^{4}$ | 8.0.190563597.1 | $(C_4^2 : C_2):C_2$ (as 8T26) | $1$ | $0$ | |
* | 4.159201.8t26.c.a | $4$ | $ 3^{2} \cdot 7^{2} \cdot 19^{2}$ | 8.0.190563597.1 | $(C_4^2 : C_2):C_2$ (as 8T26) | $1$ | $0$ |