LMFDB - Embedded newform 225.3.g.f.118.1

Show commands: Magma / Pari/GP / SageMath

Newspace parameters

comment:Compute space of new eigenforms

gp:[N,k,chi] = [225,3,Mod(82,225)] mf = mfinit([N,k,chi],0) lf = mfeigenbasis(mf)

magma://Please install CHIMP (https://github.com/edgarcosta/CHIMP) if you want to run this code chi := DirichletCharacter("225.82"); S:= CuspForms(chi, 3); N := Newforms(S);

sage:from sage.modular.dirichlet import DirichletCharacter H = DirichletGroup(225, base_ring=CyclotomicField(4)) chi = DirichletCharacter(H, H._module([0, 1])) N = Newforms(chi, 3, names="a")

Level:	$ N $	$=$	$ 225 = 3^{2} \cdot 5^{2} $
Weight:	$ k $	$=$	$ 3 $
Character orbit:	$[\chi]$	$=$	225.g (of order $4$, degree $2$, minimal)

Newform invariants

comment:select newform

sage:traces = [4,0,0,0,0,0,0,0,0,0,72,0,0,0,0,44] f = next(g for g in N if [g.coefficient(i+1).trace() for i in range(16)] == traces)

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

Self dual:	no
Analytic conductor:	$6.13080594811$
Analytic rank:	$0$
Dimension:	$4$
Relative dimension:	$2$ over $\Q(i)$
Coefficient field:	$\Q(i, \sqrt{6})$
comment:defining polynomial gp:f.mod \\ as an extension of the character field
Defining polynomial:	$ x^{4} + 9 $ x^4 + 9
Coefficient ring:	$\Z[a_1, \ldots, a_{4}]$
Coefficient ring index:	$ 1 $
Twist minimal:	no (minimal twist has level 75)
Sato-Tate group:	$\mathrm{SU}(2)[C_{4}]$

Embedding invariants

Embedding label			118.1
Root			$-1.22474 + 1.22474i$ of defining polynomial
Character	$\chi$	$=$	225.118
Dual form			225.3.g.f.82.1

$q$-expansion

comment:q-expansion

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

gp:mfcoefs(f, 20)

$f(q)$	$=$	\(q+(-1.22474 + 1.22474i) q^{2} +1.00000i q^{4} +(7.34847 - 7.34847i) q^{7} +(-6.12372 - 6.12372i) q^{8} +18.0000 q^{11} +(-7.34847 - 7.34847i) q^{13} +18.0000i q^{14} +11.0000 q^{16} +(4.89898 - 4.89898i) q^{17} +10.0000i q^{19} +(-22.0454 + 22.0454i) q^{22} +(19.5959 + 19.5959i) q^{23} +18.0000 q^{26} +(7.34847 + 7.34847i) q^{28} +22.0000 q^{31} +(11.0227 - 11.0227i) q^{32} +12.0000i q^{34} +(7.34847 - 7.34847i) q^{37} +(-12.2474 - 12.2474i) q^{38} +18.0000 q^{41} +(29.3939 + 29.3939i) q^{43} +18.0000i q^{44} -48.0000 q^{46} +(-44.0908 + 44.0908i) q^{47} -59.0000i q^{49} +(7.34847 - 7.34847i) q^{52} +(-4.89898 - 4.89898i) q^{53} -90.0000 q^{56} -90.0000i q^{59} +2.00000 q^{61} +(-26.9444 + 26.9444i) q^{62} +71.0000i q^{64} +(44.0908 - 44.0908i) q^{67} +(4.89898 + 4.89898i) q^{68} -72.0000 q^{71} +(-44.0908 - 44.0908i) q^{73} +18.0000i q^{74} -10.0000 q^{76} +(132.272 - 132.272i) q^{77} -70.0000i q^{79} +(-22.0454 + 22.0454i) q^{82} +(-53.8888 - 53.8888i) q^{83} -72.0000 q^{86} +(-110.227 - 110.227i) q^{88} -90.0000i q^{89} -108.000 q^{91} +(-19.5959 + 19.5959i) q^{92} -108.000i q^{94} +(-102.879 + 102.879i) q^{97} +(72.2599 + 72.2599i) q^{98} +O(q^{100})\)
$\operatorname{Tr}(f)(q)$	$=$	$ 4 q + 72 q^{11} + 44 q^{16} + 72 q^{26} + 88 q^{31} + 72 q^{41} - 192 q^{46} - 360 q^{56} + 8 q^{61} - 288 q^{71} - 40 q^{76} - 288 q^{86} - 432 q^{91}+O(q^{100}) $ 4 * q + 72 * q^11 + 44 * q^16 + 72 * q^26 + 88 * q^31 + 72 * q^41 - 192 * q^46 - 360 * q^56 + 8 * q^61 - 288 * q^71 - 40 * q^76 - 288 * q^86 - 432 * q^91

Character values

We give the values of $\chi$ on generators for $\left(\mathbb{Z}/225\mathbb{Z}\right)^\times$.

$n$	$101$	$127$
$\chi(n)$	$1$	$e\left(\frac{3}{4}\right)$

Coefficient data

For each $n$ we display the coefficients of the $q$-expansion $a_n$, the Satake parameters $\alpha_p$, and the Satake angles $\theta_p = \textrm{Arg}(\alpha_p)$. You can download additional coefficients here.

Currently showing only $a_p$; display all $a_n$ Currently showing all $a_n$; display only $a_p$

$n$	$a_n$			$a_n / n^{(k-1)/2}$			$ \alpha_n $			$ \theta_n $
$p$	$a_p$			$a_p / p^{(k-1)/2}$			$ \alpha_p$			$ \theta_p $

$2$	−1.22474	+	1.22474i	−0.612372	+	0.612372i	−0.943564	−	0.331191i	$-0.892549\pi$
$2$	−1.22474	+	1.22474i	−0.612372	+	0.612372i	0.331191	+	0.943564i	$0.392549\pi$
$3$		0			0
$3$		0			0
$4$			1.00000i			0.250000i
$5$		0			0
$5$		0			0
$6$		0			0
$7$	7.34847	−	7.34847i	1.04978	−	1.04978i	0.0510871	−	0.998694i	$-0.483731\pi$
$7$	7.34847	−	7.34847i	1.04978	−	1.04978i	0.998694	−	0.0510871i	$-0.0162686\pi$
$8$	−6.12372	−	6.12372i	−0.765466	−	0.765466i
$9$		0			0
$10$		0			0
$11$	18.0000			1.63636			0.818182	−	0.574960i	$-0.194982\pi$
$11$	18.0000			1.63636			0.818182	+	0.574960i	$0.194982\pi$
$12$		0			0
$13$	−7.34847	−	7.34847i	−0.565267	−	0.565267i	0.365532	−	0.930799i	$-0.380887\pi$
$13$	−7.34847	−	7.34847i	−0.565267	−	0.565267i	−0.930799	+	0.365532i	$0.880887\pi$
$14$			18.0000i			1.28571i
$15$		0			0
$16$	11.0000			0.687500
$17$	4.89898	−	4.89898i	0.288175	−	0.288175i	−0.548183	−	0.836358i	$-0.684680\pi$
$17$	4.89898	−	4.89898i	0.288175	−	0.288175i	0.836358	+	0.548183i	$0.184680\pi$
$18$		0			0
$19$			10.0000i			0.526316i	0.964753	+	0.263158i	$0.0847640\pi$
$19$			10.0000i			0.526316i	−0.964753	+	0.263158i	$0.915236\pi$
$20$		0			0
$21$		0			0
$22$	−22.0454	+	22.0454i	−1.00206	+	1.00206i
$23$	19.5959	+	19.5959i	0.851996	+	0.851996i	0.990379	−	0.138382i	$-0.0441903\pi$
$23$	19.5959	+	19.5959i	0.851996	+	0.851996i	−0.138382	+	0.990379i	$0.544190\pi$
$24$		0			0
$25$		0			0
$26$	18.0000			0.692308
$27$		0			0
$28$	7.34847	+	7.34847i	0.262445	+	0.262445i
$29$		0			0		1.00000			$0$
$29$		0			0		−1.00000			$\pi$
$30$		0			0
$31$	22.0000			0.709677			0.354839	−	0.934928i	$-0.384536\pi$
$31$	22.0000			0.709677			0.354839	+	0.934928i	$0.384536\pi$
$32$	11.0227	−	11.0227i	0.344459	−	0.344459i
$33$		0			0
$34$			12.0000i			0.352941i
$35$		0			0
$36$		0			0
$37$	7.34847	−	7.34847i	0.198607	−	0.198607i	−0.600795	−	0.799403i	$-0.705149\pi$
$37$	7.34847	−	7.34847i	0.198607	−	0.198607i	0.799403	+	0.600795i	$0.205149\pi$
$38$	−12.2474	−	12.2474i	−0.322301	−	0.322301i
$39$		0			0
$40$		0			0
$41$	18.0000			0.439024			0.219512	−	0.975610i	$-0.429553\pi$
$41$	18.0000			0.439024			0.219512	+	0.975610i	$0.429553\pi$
$42$		0			0
$43$	29.3939	+	29.3939i	0.683579	+	0.683579i	0.960805	−	0.277226i	$-0.0894151\pi$
$43$	29.3939	+	29.3939i	0.683579	+	0.683579i	−0.277226	+	0.960805i	$0.589415\pi$
$44$			18.0000i			0.409091i
$45$		0			0
$46$	−48.0000			−1.04348
$47$	−44.0908	+	44.0908i	−0.938102	+	0.938102i	−0.998193	−	0.0600905i	$-0.980861\pi$
$47$	−44.0908	+	44.0908i	−0.938102	+	0.938102i	0.0600905	+	0.998193i	$0.480861\pi$
$48$		0			0
$49$		−	59.0000i		−	1.20408i
$50$		0			0
$51$		0			0
$52$	7.34847	−	7.34847i	0.141317	−	0.141317i
$53$	−4.89898	−	4.89898i	−0.0924336	−	0.0924336i	0.659378	−	0.751812i	$-0.270820\pi$
$53$	−4.89898	−	4.89898i	−0.0924336	−	0.0924336i	−0.751812	+	0.659378i	$0.770820\pi$
$54$		0			0
$55$		0			0
$56$	−90.0000			−1.60714
$57$		0			0
$58$		0			0
$59$		−	90.0000i		−	1.52542i	−0.646738	−	0.762712i	$-0.723867\pi$
$59$		−	90.0000i		−	1.52542i	0.646738	−	0.762712i	$-0.276133\pi$
$60$		0			0
$61$	2.00000			0.0327869			0.0163934	−	0.999866i	$-0.494782\pi$
$61$	2.00000			0.0327869			0.0163934	+	0.999866i	$0.494782\pi$
$62$	−26.9444	+	26.9444i	−0.434587	+	0.434587i
$63$		0			0
$64$			71.0000i			1.10938i
$65$		0			0
$66$		0			0
$67$	44.0908	−	44.0908i	0.658072	−	0.658072i	−0.296852	−	0.954924i	$-0.595937\pi$
$67$	44.0908	−	44.0908i	0.658072	−	0.658072i	0.954924	+	0.296852i	$0.0959367\pi$
$68$	4.89898	+	4.89898i	0.0720438	+	0.0720438i
$69$		0			0
$70$		0			0
$71$	−72.0000			−1.01408			−0.507042	−	0.861921i	$-0.669261\pi$
$71$	−72.0000			−1.01408			−0.507042	+	0.861921i	$0.669261\pi$
$72$		0			0
$73$	−44.0908	−	44.0908i	−0.603984	−	0.603984i	0.337384	−	0.941367i	$-0.390458\pi$
$73$	−44.0908	−	44.0908i	−0.603984	−	0.603984i	−0.941367	+	0.337384i	$0.890458\pi$
$74$			18.0000i			0.243243i
$75$		0			0
$76$	−10.0000			−0.131579
$77$	132.272	−	132.272i	1.71782	−	1.71782i
$78$		0			0
$79$		−	70.0000i		−	0.886076i	−0.896503	−	0.443038i	$-0.853901\pi$
$79$		−	70.0000i		−	0.886076i	0.896503	−	0.443038i	$-0.146099\pi$
$80$		0			0
$81$		0			0
$82$	−22.0454	+	22.0454i	−0.268846	+	0.268846i
$83$	−53.8888	−	53.8888i	−0.649262	−	0.649262i	0.303552	−	0.952815i	$-0.401827\pi$
$83$	−53.8888	−	53.8888i	−0.649262	−	0.649262i	−0.952815	+	0.303552i	$0.901827\pi$
$84$		0			0
$85$		0			0
$86$	−72.0000			−0.837209
$87$		0			0
$88$	−110.227	−	110.227i	−1.25258	−	1.25258i
$89$		−	90.0000i		−	1.01124i	−0.862757	−	0.505618i	$-0.831265\pi$
$89$		−	90.0000i		−	1.01124i	0.862757	−	0.505618i	$-0.168735\pi$
$90$		0			0
$91$	−108.000			−1.18681
$92$	−19.5959	+	19.5959i	−0.212999	+	0.212999i
$93$		0			0
$94$		−	108.000i		−	1.14894i
$95$		0			0
$96$		0			0
$97$	−102.879	+	102.879i	−1.06060	+	1.06060i	−0.0625628	+	0.998041i	$0.519927\pi$
$97$	−102.879	+	102.879i	−1.06060	+	1.06060i	−0.998041	+	0.0625628i	$0.980073\pi$
$98$	72.2599	+	72.2599i	0.737346	+	0.737346i
$99$		0			0

Currently showing only $a_p$; display all $a_n$ Currently showing all $a_n$; display only $a_p$

Twists

By twisting character
Char	Parity	Ord	Type	Twist	Min	Dim
1.1	even	1	trivial	225.3.g.f.118.1		4
3.2	odd	2		75.3.f.a.43.2	yes	4
5.2	odd	4	inner	225.3.g.f.82.1		4
5.3	odd	4	inner	225.3.g.f.82.2		4
5.4	even	2	inner	225.3.g.f.118.2		4
12.11	even	2		1200.3.bg.j.193.1		4
15.2	even	4		75.3.f.a.7.2	yes	4
15.8	even	4		75.3.f.a.7.1	✓	4
15.14	odd	2		75.3.f.a.43.1	yes	4
60.23	odd	4		1200.3.bg.j.1057.2		4
60.47	odd	4		1200.3.bg.j.1057.1		4
60.59	even	2		1200.3.bg.j.193.2		4

By twisted newform
Twist	Min	Dim	Char	Parity	Ord	Type
75.3.f.a.7.1	✓	4	15.8	even	4
75.3.f.a.7.2	yes	4	15.2	even	4
75.3.f.a.43.1	yes	4	15.14	odd	2
75.3.f.a.43.2	yes	4	3.2	odd	2
225.3.g.f.82.1		4	5.2	odd	4	inner
225.3.g.f.82.2		4	5.3	odd	4	inner
225.3.g.f.118.1		4	1.1	even	1	trivial
225.3.g.f.118.2		4	5.4	even	2	inner
1200.3.bg.j.193.1		4	12.11	even	2
1200.3.bg.j.193.2		4	60.59	even	2
1200.3.bg.j.1057.1		4	60.47	odd	4
1200.3.bg.j.1057.2		4	60.23	odd	4

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Classical	Maass
Hilbert	Bianchi

Elliptic curves over $\Q$
Elliptic curves over $\Q(\alpha)$
Genus 2 curves over $\Q$
Higher genus families
Abelian varieties over $\F_{q}$
Belyi maps

Level:	\( N \)	\(=\)	\( 225 = 3^{2} \cdot 5^{2} \)
Weight:	\( k \)	\(=\)	\( 3 \)
Character orbit:	\([\chi]\)	\(=\)	225.g (of order \(4\), degree \(2\), minimal)

\(f(q)\)	\(=\)	\(q+(-1.22474 + 1.22474i) q^{2} +1.00000i q^{4} +(7.34847 - 7.34847i) q^{7} +(-6.12372 - 6.12372i) q^{8} +18.0000 q^{11} +(-7.34847 - 7.34847i) q^{13} +18.0000i q^{14} +11.0000 q^{16} +(4.89898 - 4.89898i) q^{17} +10.0000i q^{19} +(-22.0454 + 22.0454i) q^{22} +(19.5959 + 19.5959i) q^{23} +18.0000 q^{26} +(7.34847 + 7.34847i) q^{28} +22.0000 q^{31} +(11.0227 - 11.0227i) q^{32} +12.0000i q^{34} +(7.34847 - 7.34847i) q^{37} +(-12.2474 - 12.2474i) q^{38} +18.0000 q^{41} +(29.3939 + 29.3939i) q^{43} +18.0000i q^{44} -48.0000 q^{46} +(-44.0908 + 44.0908i) q^{47} -59.0000i q^{49} +(7.34847 - 7.34847i) q^{52} +(-4.89898 - 4.89898i) q^{53} -90.0000 q^{56} -90.0000i q^{59} +2.00000 q^{61} +(-26.9444 + 26.9444i) q^{62} +71.0000i q^{64} +(44.0908 - 44.0908i) q^{67} +(4.89898 + 4.89898i) q^{68} -72.0000 q^{71} +(-44.0908 - 44.0908i) q^{73} +18.0000i q^{74} -10.0000 q^{76} +(132.272 - 132.272i) q^{77} -70.0000i q^{79} +(-22.0454 + 22.0454i) q^{82} +(-53.8888 - 53.8888i) q^{83} -72.0000 q^{86} +(-110.227 - 110.227i) q^{88} -90.0000i q^{89} -108.000 q^{91} +(-19.5959 + 19.5959i) q^{92} -108.000i q^{94} +(-102.879 + 102.879i) q^{97} +(72.2599 + 72.2599i) q^{98} +O(q^{100})\)
\(\operatorname{Tr}(f)(q)\)	\(=\)	\( 4 q + 72 q^{11} + 44 q^{16} + 72 q^{26} + 88 q^{31} + 72 q^{41} - 192 q^{46} - 360 q^{56} + 8 q^{61} - 288 q^{71} - 40 q^{76} - 288 q^{86} - 432 q^{91}+O(q^{100}) \) 4 * q + 72 * q^11 + 44 * q^16 + 72 * q^26 + 88 * q^31 + 72 * q^41 - 192 * q^46 - 360 * q^56 + 8 * q^61 - 288 * q^71 - 40 * q^76 - 288 * q^86 - 432 * q^91

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