LMFDB - Newform orbit 100.20.c.a

Show commands: Magma / PariGP / SageMath

Newspace parameters

comment: Compute space of new eigenforms

[N,k,chi] = [100,20,Mod(49,100)]

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

lf = mfeigenbasis(mf)

from sage.modular.dirichlet import DirichletCharacter

H = DirichletGroup(100, base_ring=CyclotomicField(2))

chi = DirichletCharacter(H, H._module([0, 1]))

N = Newforms(chi, 20, names="a")

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

chi := DirichletCharacter("100.49");

S:= CuspForms(chi, 20);

N := Newforms(S);

Level:	$ N $	$=$	$ 100 = 2^{2} \cdot 5^{2} $
Weight:	$ k $	$=$	$ 20 $
Character orbit:	$[\chi]$	$=$	100.c (of order $2$, degree $1$, 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:	$228.816696556$
Analytic rank:	$0$
Dimension:	$2$
Coefficient field:	$\Q(\sqrt{-1}) $
comment: defining polynomial gp: f.mod \\ as an extension of the character field
Defining polynomial:	$ x^{2} + 1 $ x^2 + 1
Coefficient ring:	$\Z[a_1, \ldots, a_{13}]$
Coefficient ring index:	$ 2 $
Twist minimal:	no (minimal twist has level 4)
Sato-Tate group:	$\mathrm{SU}(2)[C_{2}]$

$q$-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 $\beta = 2i$. We also show the integral $q$-expansion of the trace form.

$f(q)$	$=$	$ q + 18 \beta q^{3} - 17952788 \beta q^{7} + 1162260171 q^{9} +O(q^{10}) $ q + 18b q^3 - 17952788b q^7 + 1162260171 * q^9	$ q + 18 \beta q^{3} - 17952788 \beta q^{7} + 1162260171 q^{9} - 12016099980 q^{11} + 22764828437 \beta q^{13} + 248281624089 \beta q^{17} - 1410273986444 q^{19} + 1292600736 q^{21} + 3519872694396 \beta q^{23} + 41841389484 \beta q^{27} - 38996890912134 q^{29} + 173641323230816 q^{31} - 216289799640 \beta q^{33} - 554053412831153 \beta q^{37} - 1639067647464 q^{39} - 14\!\cdots\!14 q^{41} + \cdots - 13\!\cdots\!80 q^{99} +O(q^{100}) $ q + 18b q^3 - 17952788b q^7 + 1162260171 * q^9 - 12016099980 * q^11 + 22764828437b q^13 + 248281624089b q^17 - 1410273986444 * q^19 + 1292600736 * q^21 + 3519872694396b q^23 + 41841389484b q^27 - 38996890912134 * q^29 + 173641323230816 * q^31 - 216289799640b q^33 - 554053412831153b q^37 - 1639067647464 * q^39 - 1444509198124614 * q^41 - 2323037874177130b q^43 + 4475228843262024b q^47 + 10109684797481367 * q^49 - 17876276934408 * q^51 + 16474262192231769b q^53 - 25384931755992b q^57 - 36999205673523588 * q^59 + 82929105285760742 * q^61 - 20865810450806748b q^63 - 93334295430023858b q^67 - 253430833996512 * q^69 - 596514630027659112 * q^71 - 155393387747792653b q^73 + 215722495527744240b q^77 - 700397513485701872 * q^79 + 1350847198802088009 * q^81 + 678941060862427866b q^83 - 701944036418412b q^87 + 5991411253779123894 * q^89 + 1634768555143329424 * q^91 + 3125543818154688b q^93 + 2265559203872332177b q^97 - 13965834417507896580 * q^99
$\operatorname{Tr}(f)(q)$	$=$	$ 2 q + 2324520342 q^{9}+O(q^{10}) $ 2 * q + 2324520342 * q^9	$ 2 q + 2324520342 q^{9} - 24032199960 q^{11} - 2820547972888 q^{19} + 2585201472 q^{21} - 77993781824268 q^{29} + 347282646461632 q^{31} - 3278135294928 q^{39} - 28\!\cdots\!28 q^{41}+ \cdots - 27\!\cdots\!60 q^{99}+O(q^{100}) $ 2 * q + 2324520342 * q^9 - 24032199960 * q^11 - 2820547972888 * q^19 + 2585201472 * q^21 - 77993781824268 * q^29 + 347282646461632 * q^31 - 3278135294928 * q^39 - 2889018396249228 * q^41 + 20219369594962734 * q^49 - 35752553868816 * q^51 - 73998411347047176 * q^59 + 165858210571521484 * q^61 - 506861667993024 * q^69 - 1193029260055318224 * q^71 - 1400795026971403744 * q^79 + 2701694397604176018 * q^81 + 11982822507558247788 * q^89 + 3269537110286658848 * q^91 - 27931668835015793160 * q^99

Display 100 coefficients 10 coefficients

Character values

We give the values of $\chi$ on generators for $\left(\mathbb{Z}/100\mathbb{Z}\right)^\times$.

$n$	$51$	$77$
$\chi(n)$	$1$	$-1$

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} $

49.1

	−	1.00000i
		1.00000i

−

36.0000i

3.59056e7i

1.16226e9

49.2

36.0000i

−

3.59056e7i

1.16226e9

Inner twists

Char	Parity	Ord	Mult	Type
1.a	even	1	1	trivial
5.b	even	2	1	inner

Twists

By twisting character orbit
Char	Parity	Ord	Mult	Type	Twist	Min	Dim
1.a	even	1	1	trivial	100.20.c.a		2
5.b	even	2	1	inner	100.20.c.a		2
5.c	odd	4	1		4.20.a.a	✓	1
5.c	odd	4	1		100.20.a.a		1
15.e	even	4	1		36.20.a.b		1
20.e	even	4	1		16.20.a.b		1
40.i	odd	4	1		64.20.a.f		1
40.k	even	4	1		64.20.a.d		1

By twisted newform orbit
Twist	Min	Dim	Char	Parity	Ord	Mult	Type
4.20.a.a	✓	1	5.c	odd	4	1
16.20.a.b		1	20.e	even	4	1
36.20.a.b		1	15.e	even	4	1
64.20.a.d		1	40.k	even	4	1
64.20.a.f		1	40.i	odd	4	1
100.20.a.a		1	5.c	odd	4	1
100.20.c.a		2	1.a	even	1	1	trivial
100.20.c.a		2	5.b	even	2	1	inner

Hecke kernels

This newform subspace can be constructed as the kernel of the linear operator $ T_{3}^{2} + 1296 $ T3^2 + 1296 acting on $S_{20}^{\mathrm{new}}(100, [\chi])$.

Hecke characteristic polynomials

$p$	$F_p(T)$
$2$	$ T^{2} $ T^2
$3$	$ T^{2} + 1296 $ T^2 + 1296
$5$	$ T^{2} $ T^2
$7$	$ T^{2} + 12\!\cdots\!76 $ T^2 + 1289210387891776
$11$	$ (T + 12016099980)^{2} $ (T + 12016099980)^2
$13$	$ T^{2} + 20\!\cdots\!76 $ T^2 + 2072949655064175451876
$17$	$ T^{2} + 24\!\cdots\!84 $ T^2 + 246575059441086020319684
$19$	$ (T + 1410273986444)^{2} $ (T + 1410273986444)^2
$23$	$ T^{2} + 49\!\cdots\!64 $ T^2 + 49558015139018227239219264
$29$	$ (T + 38996890912134)^{2} $ (T + 38996890912134)^2
$31$	$ (T - 173641323230816)^{2} $ (T - 173641323230816)^2
$37$	$ T^{2} + 12\!\cdots\!36 $ T^2 + 1227900737079392223115549237636
$41$	$ (T + 14\!\cdots\!14)^{2} $ (T + 1444509198124614)^2
$43$	$ T^{2} + 21\!\cdots\!00 $ T^2 + 21586019859445597093098460147600
$47$	$ T^{2} + 80\!\cdots\!04 $ T^2 + 80110692798257413495140482306304
$53$	$ T^{2} + 10\!\cdots\!44 $ T^2 + 1085605259113588365648036051477444
$59$	$ (T + 36\!\cdots\!88)^{2} $ (T + 36999205673523588)^2
$61$	$ (T - 82\!\cdots\!42)^{2} $ (T - 82929105285760742)^2
$67$	$ T^{2} + 34\!\cdots\!56 $ T^2 + 34845162813675889696562953796816656
$71$	$ (T + 59\!\cdots\!12)^{2} $ (T + 596514630027659112)^2
$73$	$ T^{2} + 96\!\cdots\!36 $ T^2 + 96588419822943343223861095523113636
$79$	$ (T + 70\!\cdots\!72)^{2} $ (T + 700397513485701872)^2
$83$	$ T^{2} + 18\!\cdots\!24 $ T^2 + 1843843856499995919099750976213255824
$89$	$ (T - 59\!\cdots\!94)^{2} $ (T - 5991411253779123894)^2
$97$	$ T^{2} + 20\!\cdots\!16 $ T^2 + 20531034025002542372446853156118237316
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Elliptic curves over $\Q$
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Abelian varieties over $\F_{q}$

Level:	\( N \)	\(=\)	\( 100 = 2^{2} \cdot 5^{2} \)
Weight:	\( k \)	\(=\)	\( 20 \)
Character orbit:	\([\chi]\)	\(=\)	100.c (of order \(2\), degree \(1\), not minimal)

\(f(q)\)	\(=\)	\( q + 18 \beta q^{3} - 17952788 \beta q^{7} + 1162260171 q^{9} +O(q^{10}) \) q + 18b q^3 - 17952788b q^7 + 1162260171 * q^9	\( q + 18 \beta q^{3} - 17952788 \beta q^{7} + 1162260171 q^{9} - 12016099980 q^{11} + 22764828437 \beta q^{13} + 248281624089 \beta q^{17} - 1410273986444 q^{19} + 1292600736 q^{21} + 3519872694396 \beta q^{23} + 41841389484 \beta q^{27} - 38996890912134 q^{29} + 173641323230816 q^{31} - 216289799640 \beta q^{33} - 554053412831153 \beta q^{37} - 1639067647464 q^{39} - 14\!\cdots\!14 q^{41} + \cdots - 13\!\cdots\!80 q^{99} +O(q^{100}) \) q + 18b q^3 - 17952788b q^7 + 1162260171 * q^9 - 12016099980 * q^11 + 22764828437b q^13 + 248281624089b q^17 - 1410273986444 * q^19 + 1292600736 * q^21 + 3519872694396b q^23 + 41841389484b q^27 - 38996890912134 * q^29 + 173641323230816 * q^31 - 216289799640b q^33 - 554053412831153b q^37 - 1639067647464 * q^39 - 1444509198124614 * q^41 - 2323037874177130b q^43 + 4475228843262024b q^47 + 10109684797481367 * q^49 - 17876276934408 * q^51 + 16474262192231769b q^53 - 25384931755992b q^57 - 36999205673523588 * q^59 + 82929105285760742 * q^61 - 20865810450806748b q^63 - 93334295430023858b q^67 - 253430833996512 * q^69 - 596514630027659112 * q^71 - 155393387747792653b q^73 + 215722495527744240b q^77 - 700397513485701872 * q^79 + 1350847198802088009 * q^81 + 678941060862427866b q^83 - 701944036418412b q^87 + 5991411253779123894 * q^89 + 1634768555143329424 * q^91 + 3125543818154688b q^93 + 2265559203872332177b q^97 - 13965834417507896580 * q^99
\(\operatorname{Tr}(f)(q)\)	\(=\)	\( 2 q + 2324520342 q^{9}+O(q^{10}) \) 2 * q + 2324520342 * q^9	\( 2 q + 2324520342 q^{9} - 24032199960 q^{11} - 2820547972888 q^{19} + 2585201472 q^{21} - 77993781824268 q^{29} + 347282646461632 q^{31} - 3278135294928 q^{39} - 28\!\cdots\!28 q^{41}+ \cdots - 27\!\cdots\!60 q^{99}+O(q^{100}) \) 2 * q + 2324520342 * q^9 - 24032199960 * q^11 - 2820547972888 * q^19 + 2585201472 * q^21 - 77993781824268 * q^29 + 347282646461632 * q^31 - 3278135294928 * q^39 - 2889018396249228 * q^41 + 20219369594962734 * q^49 - 35752553868816 * q^51 - 73998411347047176 * q^59 + 165858210571521484 * q^61 - 506861667993024 * q^69 - 1193029260055318224 * q^71 - 1400795026971403744 * q^79 + 2701694397604176018 * q^81 + 11982822507558247788 * q^89 + 3269537110286658848 * q^91 - 27931668835015793160 * q^99

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