LMFDB - Embedded newform 560.2.q.l.81.3

Show commands: Magma / Pari/GP / SageMath

Newspace parameters

comment:Compute space of new eigenforms

gp:[N,k,chi] = [560,2,Mod(81,560)] 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("560.81"); S:= CuspForms(chi, 2); N := Newforms(S);

sage:from sage.modular.dirichlet import DirichletCharacter H = DirichletGroup(560, base_ring=CyclotomicField(6)) chi = DirichletCharacter(H, H._module([0, 0, 0, 4])) N = Newforms(chi, 2, names="a")

Level:	$ N $	$=$	$ 560 = 2^{4} \cdot 5 \cdot 7 $
Weight:	$ k $	$=$	$ 2 $
Character orbit:	$[\chi]$	$=$	560.q (of order $3$, degree $2$, not minimal)

Newform invariants

comment:select newform

sage:traces = [6,0,0,0,-3,0,-6] f = next(g for g in N if [g.coefficient(i+1).trace() for i in range(7)] == traces)

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

Self dual:	no
Analytic conductor:	$4.47162251319$
Analytic rank:	$0$
Dimension:	$6$
Relative dimension:	$3$ over $\Q(\zeta_{3})$
Coefficient field:	6.0.11337408.1
comment:defining polynomial gp:f.mod \\ as an extension of the character field
Defining polynomial:	$ x^{6} + 18x^{4} + 81x^{2} + 12 $ x^6 + 18x^4 + 81x^2 + 12
Coefficient ring:	$\Z[a_1, \ldots, a_{7}]$
Coefficient ring index:	$ 1 $
Twist minimal:	no (minimal twist has level 280)
Sato-Tate group:	$\mathrm{SU}(2)[C_{3}]$

Embedding invariants

Embedding label			81.3
Root			$0.391571i$ of defining polynomial
Character	$\chi$	$=$	560.81
Dual form			560.2.q.l.401.3

$q$-expansion

comment:q-expansion

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

gp:mfcoefs(f, 20)

$f(q)$	$=$	\(q+(1.29211 - 2.23800i) q^{3} +(-0.500000 - 0.866025i) q^{5} +(0.292113 - 2.62958i) q^{7} +(-1.83911 - 3.18543i) q^{9} +(0.839111 - 1.45338i) q^{11} -4.84667 q^{13} -2.58423 q^{15} +(-1.00000 + 1.73205i) q^{17} +(3.42334 + 5.92939i) q^{19} +(-5.50756 - 4.05146i) q^{21} +(-1.13122 - 1.95934i) q^{23} +(-0.500000 + 0.866025i) q^{25} -1.75268 q^{27} +3.32178 q^{29} +(4.58423 - 7.94011i) q^{31} +(-2.16845 - 3.75587i) q^{33} +(-2.42334 + 1.06181i) q^{35} +(1.42334 + 2.46529i) q^{37} +(-6.26245 + 10.8469i) q^{39} +9.52489 q^{41} -6.58423 q^{43} +(-1.83911 + 3.18543i) q^{45} +(-6.10156 - 10.5682i) q^{47} +(-6.82934 - 1.53627i) q^{49} +(2.58423 + 4.47601i) q^{51} +(-3.74511 + 6.48673i) q^{53} -1.67822 q^{55} +17.6933 q^{57} +(4.00000 - 6.92820i) q^{59} +(3.24511 + 5.62070i) q^{61} +(-8.91357 + 3.90558i) q^{63} +(2.42334 + 4.19734i) q^{65} +(-2.87634 + 4.98196i) q^{67} -5.84667 q^{69} +(5.84667 - 10.1267i) q^{73} +(1.29211 + 2.23800i) q^{75} +(-3.57666 - 2.63106i) q^{77} +(2.84667 + 4.93058i) q^{79} +(3.25268 - 5.63380i) q^{81} +12.5842 q^{83} +2.00000 q^{85} +(4.29211 - 7.43416i) q^{87} +(2.92334 + 5.06337i) q^{89} +(-1.41577 + 12.7447i) q^{91} +(-11.8467 - 20.5190i) q^{93} +(3.42334 - 5.92939i) q^{95} -2.00000 q^{97} -6.17287 q^{99} +O(q^{100})\)
$\operatorname{Tr}(f)(q)$	$=$	$ 6 q - 3 q^{5} - 6 q^{7} - 9 q^{9} + 3 q^{11} + 6 q^{13} - 6 q^{17} + 3 q^{19} + 3 q^{23} - 3 q^{25} + 36 q^{27} + 24 q^{29} + 12 q^{31} + 18 q^{33} + 3 q^{35} - 9 q^{37} - 18 q^{39} + 18 q^{41} - 24 q^{43}+ \cdots - 126 q^{99}+O(q^{100}) $ 6 * q - 3 * q^5 - 6 * q^7 - 9 * q^9 + 3 * q^11 + 6 * q^13 - 6 * q^17 + 3 * q^19 + 3 * q^23 - 3 * q^25 + 36 * q^27 + 24 * q^29 + 12 * q^31 + 18 * q^33 + 3 * q^35 - 9 * q^37 - 18 * q^39 + 18 * q^41 - 24 * q^43 - 9 * q^45 - 15 * q^47 - 12 * q^49 - 9 * q^53 - 6 * q^55 + 36 * q^57 + 24 * q^59 + 6 * q^61 - 9 * q^63 - 3 * q^65 + 6 * q^67 - 39 * q^77 - 18 * q^79 - 27 * q^81 + 60 * q^83 + 12 * q^85 + 18 * q^87 - 24 * q^91 - 36 * q^93 + 3 * q^95 - 12 * q^97 - 126 * q^99

Character values

We give the values of $\chi$ on generators for $\left(\mathbb{Z}/560\mathbb{Z}\right)^\times$.

$n$	$241$	$337$	$351$	$421$
$\chi(n)$	$e\left(\frac{2}{3}\right)$	$1$	$1$	$1$

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 $

$2$		0			0
$2$		0			0
$3$	1.29211	−	2.23800i	0.746002	−	1.29211i	−0.203724	−	0.979028i	$-0.565304\pi$
$3$	1.29211	−	2.23800i	0.746002	−	1.29211i	0.949725	−	0.313084i	$-0.101362\pi$
$4$		0			0
$5$	−0.500000	−	0.866025i	−0.223607	−	0.387298i
$5$	−0.500000	−	0.866025i	−0.223607	−	0.387298i
$6$		0			0
$7$	0.292113	−	2.62958i	0.110408	−	0.993886i
$7$	0.292113	−	2.62958i	0.110408	−	0.993886i
$8$		0			0
$9$	−1.83911	−	3.18543i	−0.613037	−	1.06181i
$10$		0			0
$11$	0.839111	−	1.45338i	0.253001	−	0.438211i	−0.711349	−	0.702839i	$-0.751916\pi$
$11$	0.839111	−	1.45338i	0.253001	−	0.438211i	0.964351	+	0.264627i	$0.0852490\pi$
$12$		0			0
$13$	−4.84667			−1.34422			−0.672112	−	0.740449i	$-0.734613\pi$
$13$	−4.84667			−1.34422			−0.672112	+	0.740449i	$0.734613\pi$
$14$		0			0
$15$	−2.58423			−0.667244
$16$		0			0
$17$	−1.00000	+	1.73205i	−0.242536	+	0.420084i	−0.961436	−	0.275029i	$-0.911312\pi$
$17$	−1.00000	+	1.73205i	−0.242536	+	0.420084i	0.718900	+	0.695113i	$0.244646\pi$
$18$		0			0
$19$	3.42334	+	5.92939i	0.785367	+	1.36030i	0.928779	+	0.370633i	$0.120859\pi$
$19$	3.42334	+	5.92939i	0.785367	+	1.36030i	−0.143412	+	0.989663i	$0.545808\pi$
$20$		0			0
$21$	−5.50756	−	4.05146i	−1.20185	−	0.884101i
$22$		0			0
$23$	−1.13122	−	1.95934i	−0.235876	−	0.408550i	0.723651	−	0.690166i	$-0.242463\pi$
$23$	−1.13122	−	1.95934i	−0.235876	−	0.408550i	−0.959527	+	0.281617i	$0.909129\pi$
$24$		0			0
$25$	−0.500000	+	0.866025i	−0.100000	+	0.173205i
$26$		0			0
$27$	−1.75268			−0.337303
$28$		0			0
$29$	3.32178			0.616839			0.308419	−	0.951250i	$-0.400200\pi$
$29$	3.32178			0.616839			0.308419	+	0.951250i	$0.400200\pi$
$30$		0			0
$31$	4.58423	−	7.94011i	0.823351	−	1.42609i	−0.0798217	−	0.996809i	$-0.525435\pi$
$31$	4.58423	−	7.94011i	0.823351	−	1.42609i	0.903173	−	0.429277i	$-0.141232\pi$
$32$		0			0
$33$	−2.16845	−	3.75587i	−0.377479	−	0.653813i
$34$		0			0
$35$	−2.42334	+	1.06181i	−0.409619	+	0.179479i
$36$		0			0
$37$	1.42334	+	2.46529i	0.233995	+	0.405291i	0.958980	−	0.283473i	$-0.0914867\pi$
$37$	1.42334	+	2.46529i	0.233995	+	0.405291i	−0.724985	+	0.688765i	$0.758153\pi$
$38$		0			0
$39$	−6.26245	+	10.8469i	−1.00279	+	1.73689i
$40$		0			0
$41$	9.52489			1.48754			0.743769	−	0.668437i	$-0.233036\pi$
$41$	9.52489			1.48754			0.743769	+	0.668437i	$0.233036\pi$
$42$		0			0
$43$	−6.58423			−1.00408			−0.502042	−	0.864843i	$-0.667418\pi$
$43$	−6.58423			−1.00408			−0.502042	+	0.864843i	$0.667418\pi$
$44$		0			0
$45$	−1.83911	+	3.18543i	−0.274158	+	0.474856i
$46$		0			0
$47$	−6.10156	−	10.5682i	−0.890004	−	1.54153i	−0.839869	−	0.542789i	$-0.817368\pi$
$47$	−6.10156	−	10.5682i	−0.890004	−	1.54153i	−0.0501344	−	0.998742i	$-0.515965\pi$
$48$		0			0
$49$	−6.82934	−	1.53627i	−0.975620	−	0.219466i
$50$		0			0
$51$	2.58423	+	4.47601i	0.361864	+	0.626767i
$52$		0			0
$53$	−3.74511	+	6.48673i	−0.514431	+	0.891021i	0.485429	+	0.874276i	$0.338664\pi$
$53$	−3.74511	+	6.48673i	−0.514431	+	0.891021i	−0.999860	+	0.0167445i	$0.994670\pi$
$54$		0			0
$55$	−1.67822			−0.226291
$56$		0			0
$57$	17.6933			2.34354
$58$		0			0
$59$	4.00000	−	6.92820i	0.520756	−	0.901975i	−0.478953	−	0.877841i	$-0.658984\pi$
$59$	4.00000	−	6.92820i	0.520756	−	0.901975i	0.999709	−	0.0241347i	$-0.00768307\pi$
$60$		0			0
$61$	3.24511	+	5.62070i	0.415494	+	0.719657i	0.995480	−	0.0949692i	$-0.0302753\pi$
$61$	3.24511	+	5.62070i	0.415494	+	0.719657i	−0.579986	+	0.814627i	$0.696942\pi$
$62$		0			0
$63$	−8.91357	+	3.90558i	−1.12300	+	0.492056i
$64$		0			0
$65$	2.42334	+	4.19734i	0.300578	+	0.520616i
$66$		0			0
$67$	−2.87634	+	4.98196i	−0.351401	+	0.608644i	−0.986495	−	0.163791i	$-0.947628\pi$
$67$	−2.87634	+	4.98196i	−0.351401	+	0.608644i	0.635094	+	0.772434i	$0.280961\pi$
$68$		0			0
$69$	−5.84667			−0.703857
$70$		0			0
$71$		0			0			−	1.00000i	$-0.5\pi$
$71$		0			0				1.00000i	$0.5\pi$
$72$		0			0
$73$	5.84667	−	10.1267i	0.684301	−	1.18524i	−0.289355	−	0.957222i	$-0.593441\pi$
$73$	5.84667	−	10.1267i	0.684301	−	1.18524i	0.973656	−	0.228022i	$-0.0732260\pi$
$74$		0			0
$75$	1.29211	+	2.23800i	0.149200	+	0.258423i
$76$		0			0
$77$	−3.57666	−	2.63106i	−0.407599	−	0.299837i
$78$		0			0
$79$	2.84667	+	4.93058i	0.320276	+	0.554734i	0.980545	−	0.196295i	$-0.0628911\pi$
$79$	2.84667	+	4.93058i	0.320276	+	0.554734i	−0.660269	+	0.751029i	$0.729558\pi$
$80$		0			0
$81$	3.25268	−	5.63380i	0.361408	−	0.625978i
$82$		0			0
$83$	12.5842			1.38130			0.690649	−	0.723190i	$-0.257325\pi$
$83$	12.5842			1.38130			0.690649	+	0.723190i	$0.257325\pi$
$84$		0			0
$85$	2.00000			0.216930
$86$		0			0
$87$	4.29211	−	7.43416i	0.460163	−	0.797025i
$88$		0			0
$89$	2.92334	+	5.06337i	0.309873	+	0.536716i	0.978334	−	0.207031i	$-0.0663801\pi$
$89$	2.92334	+	5.06337i	0.309873	+	0.536716i	−0.668461	+	0.743747i	$0.733047\pi$
$90$		0			0
$91$	−1.41577	+	12.7447i	−0.148414	+	1.33601i
$92$		0			0
$93$	−11.8467	−	20.5190i	−1.22844	−	2.12773i
$94$		0			0
$95$	3.42334	−	5.92939i	0.351227	−	0.608343i
$96$		0			0
$97$	−2.00000			−0.203069			−0.101535	−	0.994832i	$-0.532375\pi$
$97$	−2.00000			−0.203069			−0.101535	+	0.994832i	$0.532375\pi$
$98$		0			0
$99$	−6.17287			−0.620397

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	560.2.q.l.81.3		6
4.3	odd	2		280.2.q.e.81.1	✓	6
7.2	even	3	inner	560.2.q.l.401.3		6
7.3	odd	6		3920.2.a.cb.1.3		3
7.4	even	3		3920.2.a.cc.1.1		3
12.11	even	2		2520.2.bi.q.361.1		6
20.3	even	4		1400.2.bh.i.249.2		12
20.7	even	4		1400.2.bh.i.249.5		12
20.19	odd	2		1400.2.q.j.1201.3		6
28.3	even	6		1960.2.a.v.1.1		3
28.11	odd	6		1960.2.a.w.1.3		3
28.19	even	6		1960.2.q.w.961.3		6
28.23	odd	6		280.2.q.e.121.1	yes	6
28.27	even	2		1960.2.q.w.361.3		6
84.23	even	6		2520.2.bi.q.1801.1		6
140.23	even	12		1400.2.bh.i.849.5		12
140.39	odd	6		9800.2.a.ce.1.1		3
140.59	even	6		9800.2.a.cf.1.3		3
140.79	odd	6		1400.2.q.j.401.3		6
140.107	even	12		1400.2.bh.i.849.2		12

By twisted newform
Twist	Min	Dim	Char	Parity	Ord	Type
280.2.q.e.81.1	✓	6	4.3	odd	2
280.2.q.e.121.1	yes	6	28.23	odd	6
560.2.q.l.81.3		6	1.1	even	1	trivial
560.2.q.l.401.3		6	7.2	even	3	inner
1400.2.q.j.401.3		6	140.79	odd	6
1400.2.q.j.1201.3		6	20.19	odd	2
1400.2.bh.i.249.2		12	20.3	even	4
1400.2.bh.i.249.5		12	20.7	even	4
1400.2.bh.i.849.2		12	140.107	even	12
1400.2.bh.i.849.5		12	140.23	even	12
1960.2.a.v.1.1		3	28.3	even	6
1960.2.a.w.1.3		3	28.11	odd	6
1960.2.q.w.361.3		6	28.27	even	2
1960.2.q.w.961.3		6	28.19	even	6
2520.2.bi.q.361.1		6	12.11	even	2
2520.2.bi.q.1801.1		6	84.23	even	6
3920.2.a.cb.1.3		3	7.3	odd	6
3920.2.a.cc.1.1		3	7.4	even	3
9800.2.a.ce.1.1		3	140.39	odd	6
9800.2.a.cf.1.3		3	140.59	even	6

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

Level:	\( N \)	\(=\)	\( 560 = 2^{4} \cdot 5 \cdot 7 \)
Weight:	\( k \)	\(=\)	\( 2 \)
Character orbit:	\([\chi]\)	\(=\)	560.q (of order \(3\), degree \(2\), not minimal)

\(f(q)\)	\(=\)	\(q+(1.29211 - 2.23800i) q^{3} +(-0.500000 - 0.866025i) q^{5} +(0.292113 - 2.62958i) q^{7} +(-1.83911 - 3.18543i) q^{9} +(0.839111 - 1.45338i) q^{11} -4.84667 q^{13} -2.58423 q^{15} +(-1.00000 + 1.73205i) q^{17} +(3.42334 + 5.92939i) q^{19} +(-5.50756 - 4.05146i) q^{21} +(-1.13122 - 1.95934i) q^{23} +(-0.500000 + 0.866025i) q^{25} -1.75268 q^{27} +3.32178 q^{29} +(4.58423 - 7.94011i) q^{31} +(-2.16845 - 3.75587i) q^{33} +(-2.42334 + 1.06181i) q^{35} +(1.42334 + 2.46529i) q^{37} +(-6.26245 + 10.8469i) q^{39} +9.52489 q^{41} -6.58423 q^{43} +(-1.83911 + 3.18543i) q^{45} +(-6.10156 - 10.5682i) q^{47} +(-6.82934 - 1.53627i) q^{49} +(2.58423 + 4.47601i) q^{51} +(-3.74511 + 6.48673i) q^{53} -1.67822 q^{55} +17.6933 q^{57} +(4.00000 - 6.92820i) q^{59} +(3.24511 + 5.62070i) q^{61} +(-8.91357 + 3.90558i) q^{63} +(2.42334 + 4.19734i) q^{65} +(-2.87634 + 4.98196i) q^{67} -5.84667 q^{69} +(5.84667 - 10.1267i) q^{73} +(1.29211 + 2.23800i) q^{75} +(-3.57666 - 2.63106i) q^{77} +(2.84667 + 4.93058i) q^{79} +(3.25268 - 5.63380i) q^{81} +12.5842 q^{83} +2.00000 q^{85} +(4.29211 - 7.43416i) q^{87} +(2.92334 + 5.06337i) q^{89} +(-1.41577 + 12.7447i) q^{91} +(-11.8467 - 20.5190i) q^{93} +(3.42334 - 5.92939i) q^{95} -2.00000 q^{97} -6.17287 q^{99} +O(q^{100})\)
\(\operatorname{Tr}(f)(q)\)	\(=\)	\( 6 q - 3 q^{5} - 6 q^{7} - 9 q^{9} + 3 q^{11} + 6 q^{13} - 6 q^{17} + 3 q^{19} + 3 q^{23} - 3 q^{25} + 36 q^{27} + 24 q^{29} + 12 q^{31} + 18 q^{33} + 3 q^{35} - 9 q^{37} - 18 q^{39} + 18 q^{41} - 24 q^{43}+ \cdots - 126 q^{99}+O(q^{100}) \) 6 * q - 3 * q^5 - 6 * q^7 - 9 * q^9 + 3 * q^11 + 6 * q^13 - 6 * q^17 + 3 * q^19 + 3 * q^23 - 3 * q^25 + 36 * q^27 + 24 * q^29 + 12 * q^31 + 18 * q^33 + 3 * q^35 - 9 * q^37 - 18 * q^39 + 18 * q^41 - 24 * q^43 - 9 * q^45 - 15 * q^47 - 12 * q^49 - 9 * q^53 - 6 * q^55 + 36 * q^57 + 24 * q^59 + 6 * q^61 - 9 * q^63 - 3 * q^65 + 6 * q^67 - 39 * q^77 - 18 * q^79 - 27 * q^81 + 60 * q^83 + 12 * q^85 + 18 * q^87 - 24 * q^91 - 36 * q^93 + 3 * q^95 - 12 * q^97 - 126 * q^99

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