Properties

Label 3283.2.a.o
Level $3283$
Weight $2$
Character orbit 3283.a
Self dual yes
Analytic conductor $26.215$
Analytic rank $0$
Dimension $4$
Inner twists $2$

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Show commands: Magma / PariGP / SageMath

Newspace parameters

comment: Compute space of new eigenforms
 
[N,k,chi] = [3283,2,Mod(1,3283)]
 
mf = mfinit([N,k,chi],0)
 
lf = mfeigenbasis(mf)
 
from sage.modular.dirichlet import DirichletCharacter
 
H = DirichletGroup(3283, base_ring=CyclotomicField(2))
 
chi = DirichletCharacter(H, H._module([0, 0]))
 
N = Newforms(chi, 2, names="a")
 
//Please install CHIMP (https://github.com/edgarcosta/CHIMP) if you want to run this code
 
chi := DirichletCharacter("3283.1");
 
S:= CuspForms(chi, 2);
 
N := Newforms(S);
 
Level: \( N \) \(=\) \( 3283 = 7^{2} \cdot 67 \)
Weight: \( k \) \(=\) \( 2 \)
Character orbit: \([\chi]\) \(=\) 3283.a (trivial)

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: yes
Analytic conductor: \(26.2148869836\)
Analytic rank: \(0\)
Dimension: \(4\)
Coefficient field: \(\Q(\zeta_{24})^+\)
comment: defining polynomial
 
gp: f.mod \\ as an extension of the character field
 
Defining polynomial: \( x^{4} - 4x^{2} + 1 \) Copy content Toggle raw display
Coefficient ring: \(\Z[a_1, \ldots, a_{17}]\)
Coefficient ring index: \( 1 \)
Twist minimal: yes
Fricke sign: \(-1\)
Sato-Tate group: $\mathrm{SU}(2)$

$q$-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 a basis \(1,\beta_1,\beta_2,\beta_3\) for the coefficient ring described below. We also show the integral \(q\)-expansion of the trace form.

\(f(q)\) \(=\) \( q + ( - 2 \beta_{3} - 2 \beta_1) q^{3} - 2 q^{4} + 2 \beta_{3} q^{5} + 5 q^{9}+O(q^{10}) \) Copy content Toggle raw display \( q + ( - 2 \beta_{3} - 2 \beta_1) q^{3} - 2 q^{4} + 2 \beta_{3} q^{5} + 5 q^{9} + (2 \beta_{2} + 2) q^{11} + (4 \beta_{3} + 4 \beta_1) q^{12} + (2 \beta_{3} - 2 \beta_1) q^{13} + (4 \beta_{2} - 4) q^{15} + 4 q^{16} + (\beta_{3} + 2 \beta_1) q^{17} + \beta_1 q^{19} - 4 \beta_{3} q^{20} + (\beta_{2} + 4) q^{23} + ( - 4 \beta_{2} + 3) q^{25} + ( - 4 \beta_{3} - 4 \beta_1) q^{27} + ( - 4 \beta_{2} - 3) q^{29} - 2 \beta_1 q^{31} - 8 \beta_1 q^{33} - 10 q^{36} + ( - 3 \beta_{2} + 4) q^{37} + 8 \beta_{2} q^{39} + (2 \beta_{3} - 2 \beta_1) q^{41} + (4 \beta_{2} - 4) q^{43} + ( - 4 \beta_{2} - 4) q^{44} + 10 \beta_{3} q^{45} + ( - 7 \beta_{3} - 4 \beta_1) q^{47} + ( - 8 \beta_{3} - 8 \beta_1) q^{48} + ( - 2 \beta_{2} - 6) q^{51} + ( - 4 \beta_{3} + 4 \beta_1) q^{52} + 2 q^{53} + ( - 4 \beta_{3} - 4 \beta_1) q^{55} + ( - 2 \beta_{2} - 2) q^{57} - 3 \beta_1 q^{59} + ( - 8 \beta_{2} + 8) q^{60} + ( - 4 \beta_{3} + 4 \beta_1) q^{61} - 8 q^{64} + ( - 4 \beta_{2} + 12) q^{65} + q^{67} + ( - 2 \beta_{3} - 4 \beta_1) q^{68} + ( - 6 \beta_{3} - 10 \beta_1) q^{69} + ( - 6 \beta_{2} + 4) q^{71} + ( - 6 \beta_{3} - \beta_1) q^{73} + ( - 14 \beta_{3} + 2 \beta_1) q^{75} - 2 \beta_1 q^{76} + (2 \beta_{2} + 8) q^{79} + 8 \beta_{3} q^{80} + q^{81} + (5 \beta_{3} + 3 \beta_1) q^{83} - 2 \beta_{2} q^{85} + ( - 2 \beta_{3} + 14 \beta_1) q^{87} + ( - 9 \beta_{3} - 10 \beta_1) q^{89} + ( - 2 \beta_{2} - 8) q^{92} + (4 \beta_{2} + 4) q^{93} - 2 q^{95} + (4 \beta_{3} + 8 \beta_1) q^{97} + (10 \beta_{2} + 10) q^{99}+O(q^{100}) \) Copy content Toggle raw display
\(\operatorname{Tr}(f)(q)\) \(=\) \( 4 q - 8 q^{4} + 20 q^{9}+O(q^{10}) \) Copy content Toggle raw display \( 4 q - 8 q^{4} + 20 q^{9} + 8 q^{11} - 16 q^{15} + 16 q^{16} + 16 q^{23} + 12 q^{25} - 12 q^{29} - 40 q^{36} + 16 q^{37} - 16 q^{43} - 16 q^{44} - 24 q^{51} + 8 q^{53} - 8 q^{57} + 32 q^{60} - 32 q^{64} + 48 q^{65} + 4 q^{67} + 16 q^{71} + 32 q^{79} + 4 q^{81} - 32 q^{92} + 16 q^{93} - 8 q^{95} + 40 q^{99}+O(q^{100}) \) Copy content Toggle raw display

Display 100 coefficients 10 coefficients

Basis of coefficient ring in terms of \(\nu = \zeta_{24} + \zeta_{24}^{-1}\):

\(\beta_{1}\)\(=\) \( \nu \) Copy content Toggle raw display
\(\beta_{2}\)\(=\) \( \nu^{2} - 2 \) Copy content Toggle raw display
\(\beta_{3}\)\(=\) \( \nu^{3} - 4\nu \) Copy content Toggle raw display

Display \(\nu^j\) in terms of \(\beta_i\)

\(\nu\)\(=\) \( \beta_1 \) Copy content Toggle raw display
\(\nu^{2}\)\(=\) \( \beta_{2} + 2 \) Copy content Toggle raw display
\(\nu^{3}\)\(=\) \( \beta_{3} + 4\beta_1 \) Copy content Toggle raw display

Display \(\beta_i\) in terms of \(\nu^j\)

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   \(\iota_m(\nu)\) \( a_{2} \) \( a_{3} \) \( a_{4} \) \( a_{5} \) \( a_{6} \) \( a_{7} \) \( a_{8} \) \( a_{9} \) \( a_{10} \)
1.1
1.93185
−0.517638
0.517638
−1.93185
0 −2.82843 −2.00000 −1.03528 0 0 0 5.00000 0
1.2 0 −2.82843 −2.00000 3.86370 0 0 0 5.00000 0
1.3 0 2.82843 −2.00000 −3.86370 0 0 0 5.00000 0
1.4 0 2.82843 −2.00000 1.03528 0 0 0 5.00000 0
\(n\): e.g. 2-40 or 990-1000
Significant digits:
Format:

Atkin-Lehner signs

\( p \) Sign
\(7\) \( +1 \)
\(67\) \( -1 \)

Inner twists

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

Twists

       By twisting character orbit
Char Parity Ord Mult Type Twist Min Dim
1.a even 1 1 trivial 3283.2.a.o 4
7.b odd 2 1 inner 3283.2.a.o 4
    
        By twisted newform orbit
Twist Min Dim Char Parity Ord Mult Type
3283.2.a.o 4 1.a even 1 1 trivial
3283.2.a.o 4 7.b odd 2 1 inner

Hecke kernels

This newform subspace can be constructed as the intersection of the kernels of the following linear operators acting on \(S_{2}^{\mathrm{new}}(\Gamma_0(3283))\):

\( T_{2} \) Copy content Toggle raw display
\( T_{3}^{2} - 8 \) Copy content Toggle raw display

Hecke characteristic polynomials

$p$ $F_p(T)$
$2$ \( T^{4} \) Copy content Toggle raw display
$3$ \( (T^{2} - 8)^{2} \) Copy content Toggle raw display
$5$ \( T^{4} - 16T^{2} + 16 \) Copy content Toggle raw display
$7$ \( T^{4} \) Copy content Toggle raw display
$11$ \( (T^{2} - 4 T - 8)^{2} \) Copy content Toggle raw display
$13$ \( (T^{2} - 24)^{2} \) Copy content Toggle raw display
$17$ \( T^{4} - 12T^{2} + 9 \) Copy content Toggle raw display
$19$ \( T^{4} - 4T^{2} + 1 \) Copy content Toggle raw display
$23$ \( (T^{2} - 8 T + 13)^{2} \) Copy content Toggle raw display
$29$ \( (T^{2} + 6 T - 39)^{2} \) Copy content Toggle raw display
$31$ \( T^{4} - 16T^{2} + 16 \) Copy content Toggle raw display
$37$ \( (T^{2} - 8 T - 11)^{2} \) Copy content Toggle raw display
$41$ \( (T^{2} - 24)^{2} \) Copy content Toggle raw display
$43$ \( (T^{2} + 8 T - 32)^{2} \) Copy content Toggle raw display
$47$ \( T^{4} - 148T^{2} + 2209 \) Copy content Toggle raw display
$53$ \( (T - 2)^{4} \) Copy content Toggle raw display
$59$ \( T^{4} - 36T^{2} + 81 \) Copy content Toggle raw display
$61$ \( (T^{2} - 96)^{2} \) Copy content Toggle raw display
$67$ \( (T - 1)^{4} \) Copy content Toggle raw display
$71$ \( (T^{2} - 8 T - 92)^{2} \) Copy content Toggle raw display
$73$ \( T^{4} - 124T^{2} + 169 \) Copy content Toggle raw display
$79$ \( (T^{2} - 16 T + 52)^{2} \) Copy content Toggle raw display
$83$ \( T^{4} - 76T^{2} + 676 \) Copy content Toggle raw display
$89$ \( T^{4} - 364 T^{2} + 32041 \) Copy content Toggle raw display
$97$ \( T^{4} - 192T^{2} + 2304 \) Copy content Toggle raw display
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