LMFDB - Newform orbit 847.2.l.c

Show commands: Magma / PariGP / SageMath

Newspace parameters

comment: Compute space of new eigenforms

[N,k,chi] = [847,2,Mod(118,847)]

mf = mfinit([N,k,chi],0)

lf = mfeigenbasis(mf)

from sage.modular.dirichlet import DirichletCharacter

H = DirichletGroup(847, base_ring=CyclotomicField(10))

chi = DirichletCharacter(H, H._module([5, 3]))

N = Newforms(chi, 2, names="a")

//Please install CHIMP (https://github.com/edgarcosta/CHIMP) if you want to run this code

chi := DirichletCharacter("847.118");

S:= CuspForms(chi, 2);

N := Newforms(S);

Level:	$ N $	$=$	$ 847 = 7 \cdot 11^{2} $
Weight:	$ k $	$=$	$ 2 $
Character orbit:	$[\chi]$	$=$	847.l (of order $10$, degree $4$, not minimal)

Newform invariants

comment: select newform

sage: f = N[0] # Warning: the index may be different

gp: f = lf[1] \\ Warning: the index may be different

Self dual:	no
Analytic conductor:	$6.76332905120$
Analytic rank:	$0$
Dimension:	$8$
Relative dimension:	$2$ over $\Q(\zeta_{10})$
Coefficient field:	8.0.37515625.1
comment: defining polynomial gp: f.mod \\ as an extension of the character field
Defining polynomial:	$ x^{8} - x^{7} - x^{6} + 3x^{5} - x^{4} + 6x^{3} - 4x^{2} - 8x + 16 $ x^8 - x^7 - x^6 + 3x^5 - x^4 + 6x^3 - 4x^2 - 8x + 16
Coefficient ring:	$\Z[a_1, \ldots, a_{7}]$
Coefficient ring index:	$ 1 $
Twist minimal:	no (minimal twist has level 77)
Sato-Tate group:	$\mathrm{U}(1)[D_{10}]$

$q$-expansion

comment: q-expansion

sage: f.q_expansion() # note that sage often uses an isomorphic number field

gp: mfcoefs(f, 20)

Coefficients of the $q$-expansion are expressed in terms of a basis $1,\beta_1,\ldots,\beta_{7}$ for the coefficient ring described below. We also show the integral $q$-expansion of the trace form.

$f(q)$	$=$	$ q + (\beta_{6} - \beta_{5} - \beta_{4} + \cdots - 1) q^{2}+ \cdots + (3 \beta_{7} - 3 \beta_{5} - 3 \beta_{3} - 3) q^{9}+O(q^{10}) $ q + (b6 - b5 - b4 - b3 + b1 - 1) * q^2 + (b6 - 2b5 - b4 - b3 + b2 + 2b1) * q^4 + (b5 + 2b4) q^7 + (-2b7 + 2b6 - 3b5 - b4 + b2 + 2b1) * q^8 + (3b7 - 3b5 - 3b3 - 3) q^9	$ q + (\beta_{6} - \beta_{5} - \beta_{4} + \cdots - 1) q^{2}+ \cdots + ( - 7 \beta_{7} - 7 \beta_{6} + \cdots + 7) q^{98}+O(q^{100}) $ q + (b6 - b5 - b4 - b3 + b1 - 1) * q^2 + (b6 - 2b5 - b4 - b3 + b2 + 2b1) * q^4 + (b5 + 2b4) q^7 + (-2b7 + 2b6 - 3b5 - b4 + b2 + 2b1) * q^8 + (3b7 - 3b5 - 3b3 - 3) q^9 + (-4b7 + b6 + 4b5 + 4b3 - b1) q^14 + (4b6 - 2b5 + b4 + 2b2 + 5b1 - 2) * q^16 + (-3b6 - 3b2 + 3) * q^18 + (-2b7 - 2b6 - b5 + 4b4 - 3b3 - 2b2 - 2b1 + 2) * q^23 + 5b3 q^25 + (-b7 + 3b5 + 3b4 + 5b3 + b2 - 3b1 - 2) * q^28 + (-b7 - 4b6 + b5 + 4b4 - 2b3 - 4b2 + 1) * q^29 + (-8b7 + 6b6 + 2b5 + 6b3 + 2b2 + 2b1 + 1) * q^32 + (3b7 - 6b5 - 3b4 - 6b3 - 3b2) q^36 + (5b7 - 4b6 + 4b2 - 1) q^37 + (10b7 - 5b5 - 5b3 - 2b2 - 2b1 - 5) q^43 + (3b7 + 5b6 - 4b5 - 5b4 - 3b3 + 6b1 - 7) * q^46 + 7b7 q^49 + (-5b7 + 10b5 + 5b4 + 5b3 - 5b1 + 5) q^50 + (4b6 + 7b5 + 4b4 + 3) q^53 + (-2b7 - 2b6 + 9b5 + 4b4 + 7b3 + 3b2 - 7b1 + 1) q^56 + (-b7 + b6 - 2b5 - 3b4 - 7b3 - 3b2 - b1) * q^58 + (6b7 + 6b6 - 6b5 - 6b4 - 3b3 + 6b2 + 6b1 - 6) q^63 + (-10b7 + 5b6 + 3b5 + 3b4 + 11b3 + 2b2 + b1 - 1) * q^64 + (-b5 - b3 - 6b2 + 6b1 - 1) * q^67 + (2b7 + 4b6 - 2b5 - 2b4 - 9b3 + 2b2 + 2b1 - 11) q^71 + (3b7 - 9b5 - 3b4 - 12b3 - 3b2 + 3b1 + 3) * q^72 + (-b7 - 10b6 + 18b5 + 9b4 + 5b3 - 9b2 - 10b1 + 10) * q^74 + (-6b6 - b5 + 6b4 + 7) * q^79 + 9b5 q^81 + (-b7 - 12b6 + b5 - 2b4 - 4b3 - 10b2 - 5b1 + 8) q^86 + (-b7 + 4b6 - 11b5 - b4 - b3 - 2b2 + 2b1 - 2) * q^92 + (-7b7 - 7b6 + 7b5 - 7b2 - 7b1 + 7) q^98
$\operatorname{Tr}(f)(q)$	$=$	$ 8 q + 10 q^{4} + 10 q^{8} - 6 q^{9}+O(q^{10}) $ 8 * q + 10 * q^4 + 10 * q^8 - 6 * q^9	$ 8 q + 10 q^{4} + 10 q^{8} - 6 q^{9} - 21 q^{14} + 8 q^{16} + 15 q^{18} + 16 q^{23} - 10 q^{25} - 35 q^{28} + 30 q^{36} - 18 q^{37} - 15 q^{46} + 14 q^{49} + 30 q^{53} - 42 q^{56} + 19 q^{58} - 34 q^{64} + 8 q^{67} - 48 q^{71} + 75 q^{72} + 40 q^{79} - 18 q^{81} + 23 q^{86} + 25 q^{92}+O(q^{100}) $ 8 * q + 10 * q^4 + 10 * q^8 - 6 * q^9 - 21 * q^14 + 8 * q^16 + 15 * q^18 + 16 * q^23 - 10 * q^25 - 35 * q^28 + 30 * q^36 - 18 * q^37 - 15 * q^46 + 14 * q^49 + 30 * q^53 - 42 * q^56 + 19 * q^58 - 34 * q^64 + 8 * q^67 - 48 * q^71 + 75 * q^72 + 40 * q^79 - 18 * q^81 + 23 * q^86 + 25 * q^92

Display 100 coefficients 10 coefficients

Basis of coefficient ring in terms of a root $\nu$ of $ x^{8} - x^{7} - x^{6} + 3x^{5} - x^{4} + 6x^{3} - 4x^{2} - 8x + 16 $ x^8 - x^7 - x^6 + 3*x^5 - x^4 + 6*x^3 - 4*x^2 - 8*x + 16 :

$\beta_{1}$	$=$	$ \nu $ v
$\beta_{2}$	$=$	$ ( \nu^{7} - \nu^{6} - \nu^{5} + 3\nu^{4} - \nu^{3} + 6\nu^{2} - 4\nu - 8 ) / 8 $ (v^7 - v^6 - v^5 + 3v^4 - v^3 + 6v^2 - 4*v - 8) / 8
$\beta_{3}$	$=$	$ ( -\nu^{7} - \nu^{6} + 3\nu^{5} - \nu^{4} + 3\nu^{3} - 4\nu^{2} - 8\nu + 16 ) / 8 $ (-v^7 - v^6 + 3v^5 - v^4 + 3v^3 - 4v^2 - 8v + 16) / 8
$\beta_{4}$	$=$	$ ( -\nu^{7} - 3\nu^{2} ) / 4 $ (-v^7 - 3*v^2) / 4
$\beta_{5}$	$=$	$ ( -\nu^{7} - 7\nu^{2} ) / 4 $ (-v^7 - 7*v^2) / 4
$\beta_{6}$	$=$	$ -\nu^{5} - 5 $ -v^5 - 5
$\beta_{7}$	$=$	$ ( -3\nu^{7} + 3\nu^{6} + 3\nu^{5} - \nu^{4} + 3\nu^{3} - 18\nu^{2} + 12\nu + 24 ) / 8 $ (-3v^7 + 3v^6 + 3v^5 - v^4 + 3v^3 - 18v^2 + 12v + 24) / 8

Display $\nu^j$ in terms of $\beta_i$

$\nu$	$=$	$ \beta_1 $ b1
$\nu^{2}$	$=$	$ -\beta_{5} + \beta_{4} $ -b5 + b4
$\nu^{3}$	$=$	$ \beta_{7} + \beta_{6} - \beta_{5} - \beta_{4} + 2\beta_{3} + \beta_{2} + \beta _1 - 1 $ b7 + b6 - b5 - b4 + 2*b3 + b2 + b1 - 1
$\nu^{4}$	$=$	$ \beta_{7} + 3\beta_{2} $ b7 + 3*b2
$\nu^{5}$	$=$	$ -\beta_{6} - 5 $ -b6 - 5
$\nu^{6}$	$=$	$ 2\beta_{7} - 2\beta_{5} - 2\beta_{3} - 5\beta _1 - 2 $ 2b7 - 2b5 - 2b3 - 5b1 - 2
$\nu^{7}$	$=$	$ 3\beta_{5} - 7\beta_{4} $ 3b5 - 7b4

Display $\beta_i$ in terms of $\nu^j$

Character values

We give the values of $\chi$ on generators for $\left(\mathbb{Z}/847\mathbb{Z}\right)^\times$.

$n$	$122$	$365$
$\chi(n)$	$-1$	$-\beta_{5}$

Embeddings

For each embedding $\iota_m$ of the coefficient field, the values $\iota_m(a_n)$ are shown below.

For more information on an embedded modular form you can click on its label.

comment: embeddings in the coefficient field

gp: mfembed(f)

Label

$\iota_m(\nu)$

$ a_{2} $

$ a_{3} $

$ a_{4} $

$ a_{5} $

$ a_{6} $

$ a_{7} $

$ a_{8} $

$ a_{9} $

$ a_{10} $

118.1

1.18208	+	0.776336i
−0.373058	−	1.36412i
−1.41264	+	0.0667372i
1.10362	+	0.884319i
1.18208	−	0.776336i
−0.373058	+	1.36412i
−1.41264	−	0.0667372i
1.10362	−	0.884319i

−1.03958

−

1.43086i

−0.348597

1.07287i

2.51626

0.817582i

−1.46663

0.476537i

−2.42705

1.76336i

118.2

−0.0784543

−

0.107983i

0.612529

−

1.88517i

−2.51626

−

0.817582i

−0.505505

0.164249i

−2.42705

1.76336i

475.1

−1.47668

−

0.479802i

0.332338

0.241457i

1.55513

−

2.14046i

1.45037

1.99627i

0.927051

−

2.85317i

475.2

2.59471

0.843073i

4.40373

3.19950i

−1.55513

2.14046i

5.52176

7.60006i

0.927051

−

2.85317i

524.1

−1.03958

1.43086i

−0.348597

−

1.07287i

2.51626

−

0.817582i

−1.46663

−

0.476537i

−2.42705

−

1.76336i

524.2

−0.0784543

0.107983i

0.612529

1.88517i

−2.51626

0.817582i

−0.505505

−

0.164249i

−2.42705

−

1.76336i

699.1

−1.47668

0.479802i

0.332338

−

0.241457i

1.55513

2.14046i

1.45037

−

1.99627i

0.927051

2.85317i

699.2

2.59471

−

0.843073i

4.40373

−

3.19950i

−1.55513

−

2.14046i

5.52176

−

7.60006i

0.927051

2.85317i

Inner twists

Char	Parity	Ord	Mult	Type
1.a	even	1	1	trivial
7.b	odd	2	1	CM by $\Q(\sqrt{-7}) $
11.d	odd	10	1	inner
77.l	even	10	1	inner

Twists

By twisting character orbit
Char	Parity	Ord	Mult	Type	Twist	Min	Dim
1.a	even	1	1	trivial	847.2.l.c		8
7.b	odd	2	1	CM	847.2.l.c		8
11.b	odd	2	1		77.2.l.a	✓	8
11.c	even	5	1		77.2.l.a	✓	8
11.c	even	5	1		847.2.b.b		8
11.c	even	5	1		847.2.l.a		8
11.c	even	5	1		847.2.l.d		8
11.d	odd	10	1		847.2.b.b		8
11.d	odd	10	1		847.2.l.a		8
11.d	odd	10	1	inner	847.2.l.c		8
11.d	odd	10	1		847.2.l.d		8
33.d	even	2	1		693.2.bu.a		8
33.h	odd	10	1		693.2.bu.a		8
77.b	even	2	1		77.2.l.a	✓	8
77.h	odd	6	2		539.2.s.a		16
77.i	even	6	2		539.2.s.a		16
77.j	odd	10	1		77.2.l.a	✓	8
77.j	odd	10	1		847.2.b.b		8
77.j	odd	10	1		847.2.l.a		8
77.j	odd	10	1		847.2.l.d		8
77.l	even	10	1		847.2.b.b		8
77.l	even	10	1		847.2.l.a		8
77.l	even	10	1	inner	847.2.l.c		8
77.l	even	10	1		847.2.l.d		8
77.m	even	15	2		539.2.s.a		16
77.p	odd	30	2		539.2.s.a		16
231.h	odd	2	1		693.2.bu.a		8
231.u	even	10	1		693.2.bu.a		8

By twisted newform orbit
Twist	Min	Dim	Char	Parity	Ord	Mult	Type
77.2.l.a	✓	8	11.b	odd	2	1
77.2.l.a	✓	8	11.c	even	5	1
77.2.l.a	✓	8	77.b	even	2	1
77.2.l.a	✓	8	77.j	odd	10	1
539.2.s.a		16	77.h	odd	6	2
539.2.s.a		16	77.i	even	6	2
539.2.s.a		16	77.m	even	15	2
539.2.s.a		16	77.p	odd	30	2
693.2.bu.a		8	33.d	even	2	1
693.2.bu.a		8	33.h	odd	10	1
693.2.bu.a		8	231.h	odd	2	1
693.2.bu.a		8	231.u	even	10	1
847.2.b.b		8	11.c	even	5	1
847.2.b.b		8	11.d	odd	10	1
847.2.b.b		8	77.j	odd	10	1
847.2.b.b		8	77.l	even	10	1
847.2.l.a		8	11.c	even	5	1
847.2.l.a		8	11.d	odd	10	1
847.2.l.a		8	77.j	odd	10	1
847.2.l.a		8	77.l	even	10	1
847.2.l.c		8	1.a	even	1	1	trivial
847.2.l.c		8	7.b	odd	2	1	CM
847.2.l.c		8	11.d	odd	10	1	inner
847.2.l.c		8	77.l	even	10	1	inner
847.2.l.d		8	11.c	even	5	1
847.2.l.d		8	11.d	odd	10	1
847.2.l.d		8	77.j	odd	10	1
847.2.l.d		8	77.l	even	10	1

Hecke kernels

This newform subspace can be constructed as the kernel of the linear operator $ T_{2}^{8} - 7T_{2}^{6} - 10T_{2}^{5} + 19T_{2}^{4} + 70T_{2}^{3} + 67T_{2}^{2} + 10T_{2} + 1 $ T2^8 - 7*T2^6 - 10*T2^5 + 19*T2^4 + 70*T2^3 + 67*T2^2 + 10*T2 + 1 acting on $S_{2}^{\mathrm{new}}(847, [\chi])$.

Hecke characteristic polynomials

$p$	$F_p(T)$
$2$	$ T^{8} - 7 T^{6} + \cdots + 1 $ T^8 - 7T^6 - 10T^5 + 19T^4 + 70T^3 + 67T^2 + 10T + 1
$3$	$ T^{8} $ T^8
$5$	$ T^{8} $ T^8
$7$	$ T^{8} - 7 T^{6} + \cdots + 2401 $ T^8 - 7T^6 + 49T^4 - 343*T^2 + 2401
$11$	$ T^{8} $ T^8
$13$	$ T^{8} $ T^8
$17$	$ T^{8} $ T^8
$19$	$ T^{8} $ T^8
$23$	$ (T^{4} - 8 T^{3} + \cdots - 619)^{2} $ (T^4 - 8T^3 - 51T^2 + 408*T - 619)^2
$29$	$ T^{8} - 112 T^{6} + \cdots + 259081 $ T^8 - 112T^6 + 290T^5 + 4714T^4 - 32480T^3 + 81757T^2 + 147610T + 259081
$31$	$ T^{8} $ T^8
$37$	$ T^{8} + 18 T^{7} + \cdots + 2193361 $ T^8 + 18T^7 + 293T^6 + 2436T^5 + 20350T^4 + 91026T^3 + 905868T^2 - 2328132*T + 2193361
$41$	$ T^{8} $ T^8
$43$	$ T^{8} + 402 T^{6} + \cdots + 16072081 $ T^8 + 402T^6 + 53459T^4 + 2478498*T^2 + 16072081
$47$	$ T^{8} $ T^8
$53$	$ T^{8} - 30 T^{7} + \cdots + 6027025 $ T^8 - 30T^7 + 565T^6 - 6300T^5 + 54590T^4 - 256350T^3 + 2231500T^2 - 5646500*T + 6027025
$59$	$ T^{8} $ T^8
$61$	$ T^{8} $ T^8
$67$	$ (T^{4} - 4 T^{3} + \cdots + 17341)^{2} $ (T^4 - 4T^3 - 319T^2 + 1276*T + 17341)^2
$71$	$ T^{8} + 48 T^{7} + \cdots + 19321 $ T^8 + 48T^7 + 1123T^6 + 15456T^5 + 141290T^4 + 804336T^3 + 2437888T^2 - 128992*T + 19321
$73$	$ T^{8} $ T^8
$79$	$ T^{8} - 40 T^{7} + \cdots + 23338561 $ T^8 - 40T^7 + 783T^6 - 7680T^5 + 37254T^4 - 324040T^3 + 4496132T^2 - 18164560*T + 23338561
$83$	$ T^{8} $ T^8
$89$	$ T^{8} $ T^8
$97$	$ T^{8} $ T^8
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Elliptic curves over $\Q$
Elliptic curves over $\Q(\alpha)$
Genus 2 curves over $\Q$
Higher genus families
Abelian varieties over $\F_{q}$

Level:	\( N \)	\(=\)	\( 847 = 7 \cdot 11^{2} \)
Weight:	\( k \)	\(=\)	\( 2 \)
Character orbit:	\([\chi]\)	\(=\)	847.l (of order \(10\), degree \(4\), not minimal)

\(f(q)\)	\(=\)	\( q + (\beta_{6} - \beta_{5} - \beta_{4} + \cdots - 1) q^{2}+ \cdots + (3 \beta_{7} - 3 \beta_{5} - 3 \beta_{3} - 3) q^{9}+O(q^{10}) \) q + (b6 - b5 - b4 - b3 + b1 - 1) * q^2 + (b6 - 2b5 - b4 - b3 + b2 + 2b1) * q^4 + (b5 + 2b4) q^7 + (-2b7 + 2b6 - 3b5 - b4 + b2 + 2b1) * q^8 + (3b7 - 3b5 - 3b3 - 3) q^9	\( q + (\beta_{6} - \beta_{5} - \beta_{4} + \cdots - 1) q^{2}+ \cdots + ( - 7 \beta_{7} - 7 \beta_{6} + \cdots + 7) q^{98}+O(q^{100}) \) q + (b6 - b5 - b4 - b3 + b1 - 1) * q^2 + (b6 - 2b5 - b4 - b3 + b2 + 2b1) * q^4 + (b5 + 2b4) q^7 + (-2b7 + 2b6 - 3b5 - b4 + b2 + 2b1) * q^8 + (3b7 - 3b5 - 3b3 - 3) q^9 + (-4b7 + b6 + 4b5 + 4b3 - b1) q^14 + (4b6 - 2b5 + b4 + 2b2 + 5b1 - 2) * q^16 + (-3b6 - 3b2 + 3) * q^18 + (-2b7 - 2b6 - b5 + 4b4 - 3b3 - 2b2 - 2b1 + 2) * q^23 + 5b3 q^25 + (-b7 + 3b5 + 3b4 + 5b3 + b2 - 3b1 - 2) * q^28 + (-b7 - 4b6 + b5 + 4b4 - 2b3 - 4b2 + 1) * q^29 + (-8b7 + 6b6 + 2b5 + 6b3 + 2b2 + 2b1 + 1) * q^32 + (3b7 - 6b5 - 3b4 - 6b3 - 3b2) q^36 + (5b7 - 4b6 + 4b2 - 1) q^37 + (10b7 - 5b5 - 5b3 - 2b2 - 2b1 - 5) q^43 + (3b7 + 5b6 - 4b5 - 5b4 - 3b3 + 6b1 - 7) * q^46 + 7b7 q^49 + (-5b7 + 10b5 + 5b4 + 5b3 - 5b1 + 5) q^50 + (4b6 + 7b5 + 4b4 + 3) q^53 + (-2b7 - 2b6 + 9b5 + 4b4 + 7b3 + 3b2 - 7b1 + 1) q^56 + (-b7 + b6 - 2b5 - 3b4 - 7b3 - 3b2 - b1) * q^58 + (6b7 + 6b6 - 6b5 - 6b4 - 3b3 + 6b2 + 6b1 - 6) q^63 + (-10b7 + 5b6 + 3b5 + 3b4 + 11b3 + 2b2 + b1 - 1) * q^64 + (-b5 - b3 - 6b2 + 6b1 - 1) * q^67 + (2b7 + 4b6 - 2b5 - 2b4 - 9b3 + 2b2 + 2b1 - 11) q^71 + (3b7 - 9b5 - 3b4 - 12b3 - 3b2 + 3b1 + 3) * q^72 + (-b7 - 10b6 + 18b5 + 9b4 + 5b3 - 9b2 - 10b1 + 10) * q^74 + (-6b6 - b5 + 6b4 + 7) * q^79 + 9b5 q^81 + (-b7 - 12b6 + b5 - 2b4 - 4b3 - 10b2 - 5b1 + 8) q^86 + (-b7 + 4b6 - 11b5 - b4 - b3 - 2b2 + 2b1 - 2) * q^92 + (-7b7 - 7b6 + 7b5 - 7b2 - 7b1 + 7) q^98
\(\operatorname{Tr}(f)(q)\)	\(=\)	\( 8 q + 10 q^{4} + 10 q^{8} - 6 q^{9}+O(q^{10}) \) 8 * q + 10 * q^4 + 10 * q^8 - 6 * q^9	\( 8 q + 10 q^{4} + 10 q^{8} - 6 q^{9} - 21 q^{14} + 8 q^{16} + 15 q^{18} + 16 q^{23} - 10 q^{25} - 35 q^{28} + 30 q^{36} - 18 q^{37} - 15 q^{46} + 14 q^{49} + 30 q^{53} - 42 q^{56} + 19 q^{58} - 34 q^{64} + 8 q^{67} - 48 q^{71} + 75 q^{72} + 40 q^{79} - 18 q^{81} + 23 q^{86} + 25 q^{92}+O(q^{100}) \) 8 * q + 10 * q^4 + 10 * q^8 - 6 * q^9 - 21 * q^14 + 8 * q^16 + 15 * q^18 + 16 * q^23 - 10 * q^25 - 35 * q^28 + 30 * q^36 - 18 * q^37 - 15 * q^46 + 14 * q^49 + 30 * q^53 - 42 * q^56 + 19 * q^58 - 34 * q^64 + 8 * q^67 - 48 * q^71 + 75 * q^72 + 40 * q^79 - 18 * q^81 + 23 * q^86 + 25 * q^92

Introduction

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Newspace parameters

Newform invariants

$q$-expansion

Character values

Embeddings

Inner twists

Twists

Hecke kernels

Hecke characteristic polynomials

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Label	847.2.l.c

Level	$847$
Weight	$2$
Character orbit	847.l
Analytic conductor	$6.763$
Analytic rank	$0$
Dimension	$8$
CM discriminant	-7
Inner twists	$4$

Self dual:	no
Analytic conductor:	\(6.76332905120\)
Analytic rank:	\(0\)
Dimension:	\(8\)
Relative dimension:	\(2\) over \(\Q(\zeta_{10})\)
Coefficient field:	8.0.37515625.1
comment: defining polynomial gp: f.mod \\ as an extension of the character field
Defining polynomial:	\( x^{8} - x^{7} - x^{6} + 3x^{5} - x^{4} + 6x^{3} - 4x^{2} - 8x + 16 \) x^8 - x^7 - x^6 + 3x^5 - x^4 + 6x^3 - 4x^2 - 8x + 16
Coefficient ring:	\(\Z[a_1, \ldots, a_{7}]\)
Coefficient ring index:	\( 1 \)
Twist minimal:	no (minimal twist has level 77)
Sato-Tate group:	$\mathrm{U}(1)[D_{10}]$

\(\beta_{1}\)	\(=\)	\( \nu \) v
\(\beta_{2}\)	\(=\)	\( ( \nu^{7} - \nu^{6} - \nu^{5} + 3\nu^{4} - \nu^{3} + 6\nu^{2} - 4\nu - 8 ) / 8 \) (v^7 - v^6 - v^5 + 3v^4 - v^3 + 6v^2 - 4*v - 8) / 8
\(\beta_{3}\)	\(=\)	\( ( -\nu^{7} - \nu^{6} + 3\nu^{5} - \nu^{4} + 3\nu^{3} - 4\nu^{2} - 8\nu + 16 ) / 8 \) (-v^7 - v^6 + 3v^5 - v^4 + 3v^3 - 4v^2 - 8v + 16) / 8
\(\beta_{4}\)	\(=\)	\( ( -\nu^{7} - 3\nu^{2} ) / 4 \) (-v^7 - 3*v^2) / 4
\(\beta_{5}\)	\(=\)	\( ( -\nu^{7} - 7\nu^{2} ) / 4 \) (-v^7 - 7*v^2) / 4
\(\beta_{6}\)	\(=\)	\( -\nu^{5} - 5 \) -v^5 - 5
\(\beta_{7}\)	\(=\)	\( ( -3\nu^{7} + 3\nu^{6} + 3\nu^{5} - \nu^{4} + 3\nu^{3} - 18\nu^{2} + 12\nu + 24 ) / 8 \) (-3v^7 + 3v^6 + 3v^5 - v^4 + 3v^3 - 18v^2 + 12v + 24) / 8

\(\nu\)	\(=\)	\( \beta_1 \) b1
\(\nu^{2}\)	\(=\)	\( -\beta_{5} + \beta_{4} \) -b5 + b4
\(\nu^{3}\)	\(=\)	\( \beta_{7} + \beta_{6} - \beta_{5} - \beta_{4} + 2\beta_{3} + \beta_{2} + \beta _1 - 1 \) b7 + b6 - b5 - b4 + 2*b3 + b2 + b1 - 1
\(\nu^{4}\)	\(=\)	\( \beta_{7} + 3\beta_{2} \) b7 + 3*b2
\(\nu^{5}\)	\(=\)	\( -\beta_{6} - 5 \) -b6 - 5
\(\nu^{6}\)	\(=\)	\( 2\beta_{7} - 2\beta_{5} - 2\beta_{3} - 5\beta _1 - 2 \) 2b7 - 2b5 - 2b3 - 5b1 - 2
\(\nu^{7}\)	\(=\)	\( 3\beta_{5} - 7\beta_{4} \) 3b5 - 7b4

\(n\):		e.g. 2-40 or 990-1000
Embeddings:		e.g. 1-3 or 118.2
Significant digits:
Format:

Char	Parity	Ord	Mult	Type
1.a	even	1	1	trivial
7.b	odd	2	1	CM by \(\Q(\sqrt{-7}) \)
11.d	odd	10	1	inner
77.l	even	10	1	inner

$p$	$F_p(T)$
$2$	\( T^{8} - 7 T^{6} + \cdots + 1 \) T^8 - 7T^6 - 10T^5 + 19T^4 + 70T^3 + 67T^2 + 10T + 1
$3$	\( T^{8} \) T^8
$5$	\( T^{8} \) T^8
$7$	\( T^{8} - 7 T^{6} + \cdots + 2401 \) T^8 - 7T^6 + 49T^4 - 343*T^2 + 2401
$11$	\( T^{8} \) T^8
$13$	\( T^{8} \) T^8
$17$	\( T^{8} \) T^8
$19$	\( T^{8} \) T^8
$23$	\( (T^{4} - 8 T^{3} + \cdots - 619)^{2} \) (T^4 - 8T^3 - 51T^2 + 408*T - 619)^2
$29$	\( T^{8} - 112 T^{6} + \cdots + 259081 \) T^8 - 112T^6 + 290T^5 + 4714T^4 - 32480T^3 + 81757T^2 + 147610T + 259081
$31$	\( T^{8} \) T^8
$37$	\( T^{8} + 18 T^{7} + \cdots + 2193361 \) T^8 + 18T^7 + 293T^6 + 2436T^5 + 20350T^4 + 91026T^3 + 905868T^2 - 2328132*T + 2193361
$41$	\( T^{8} \) T^8
$43$	\( T^{8} + 402 T^{6} + \cdots + 16072081 \) T^8 + 402T^6 + 53459T^4 + 2478498*T^2 + 16072081
$47$	\( T^{8} \) T^8
$53$	\( T^{8} - 30 T^{7} + \cdots + 6027025 \) T^8 - 30T^7 + 565T^6 - 6300T^5 + 54590T^4 - 256350T^3 + 2231500T^2 - 5646500*T + 6027025
$59$	\( T^{8} \) T^8
$61$	\( T^{8} \) T^8
$67$	\( (T^{4} - 4 T^{3} + \cdots + 17341)^{2} \) (T^4 - 4T^3 - 319T^2 + 1276*T + 17341)^2
$71$	\( T^{8} + 48 T^{7} + \cdots + 19321 \) T^8 + 48T^7 + 1123T^6 + 15456T^5 + 141290T^4 + 804336T^3 + 2437888T^2 - 128992*T + 19321
$73$	\( T^{8} \) T^8
$79$	\( T^{8} - 40 T^{7} + \cdots + 23338561 \) T^8 - 40T^7 + 783T^6 - 7680T^5 + 37254T^4 - 324040T^3 + 4496132T^2 - 18164560*T + 23338561
$83$	\( T^{8} \) T^8
$89$	\( T^{8} \) T^8
$97$	\( T^{8} \) T^8
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\(n\)	\(122\)	\(365\)
\(\chi(n)\)	\(-1\)	\(-\beta_{5}\)