Properties

Label 2-3e6-1.1-c1-0-11
Degree 22
Conductor 729729
Sign 11
Analytic cond. 5.821095.82109
Root an. cond. 2.412692.41269
Motivic weight 11
Arithmetic yes
Rational no
Primitive yes
Self-dual yes
Analytic rank 00

Origins

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Normalization:  

Dirichlet series

L(s)  = 1  + 1.57·2-s + 0.491·4-s − 1.67·5-s + 2.77·7-s − 2.38·8-s − 2.64·10-s + 4.15·11-s + 6.87·13-s + 4.38·14-s − 4.74·16-s − 0.976·17-s + 2.68·19-s − 0.824·20-s + 6.55·22-s − 1.61·23-s − 2.18·25-s + 10.8·26-s + 1.36·28-s + 8.22·29-s + 1.04·31-s − 2.72·32-s − 1.54·34-s − 4.66·35-s − 1.30·37-s + 4.23·38-s + 3.99·40-s + 4.84·41-s + ⋯
L(s)  = 1  + 1.11·2-s + 0.245·4-s − 0.750·5-s + 1.05·7-s − 0.841·8-s − 0.837·10-s + 1.25·11-s + 1.90·13-s + 1.17·14-s − 1.18·16-s − 0.236·17-s + 0.616·19-s − 0.184·20-s + 1.39·22-s − 0.336·23-s − 0.436·25-s + 2.12·26-s + 0.258·28-s + 1.52·29-s + 0.187·31-s − 0.481·32-s − 0.264·34-s − 0.788·35-s − 0.215·37-s + 0.687·38-s + 0.631·40-s + 0.757·41-s + ⋯

Functional equation

Λ(s)=(729s/2ΓC(s)L(s)=(Λ(2s)\begin{aligned}\Lambda(s)=\mathstrut & 729 ^{s/2} \, \Gamma_{\C}(s) \, L(s)\cr =\mathstrut & \, \Lambda(2-s) \end{aligned}
Λ(s)=(729s/2ΓC(s+1/2)L(s)=(Λ(1s)\begin{aligned}\Lambda(s)=\mathstrut & 729 ^{s/2} \, \Gamma_{\C}(s+1/2) \, L(s)\cr =\mathstrut & \, \Lambda(1-s) \end{aligned}

Invariants

Degree: 22
Conductor: 729729    =    363^{6}
Sign: 11
Analytic conductor: 5.821095.82109
Root analytic conductor: 2.412692.41269
Motivic weight: 11
Rational: no
Arithmetic: yes
Character: Trivial
Primitive: yes
Self-dual: yes
Analytic rank: 00
Selberg data: (2, 729, ( :1/2), 1)(2,\ 729,\ (\ :1/2),\ 1)

Particular Values

L(1)L(1) \approx 2.5994210382.599421038
L(12)L(\frac12) \approx 2.5994210382.599421038
L(32)L(\frac{3}{2}) not available
L(1)L(1) not available

Euler product

   L(s)=pFp(ps)1L(s) = \displaystyle \prod_{p} F_p(p^{-s})^{-1}
ppFp(T)F_p(T)
bad3 1 1
good2 11.57T+2T2 1 - 1.57T + 2T^{2}
5 1+1.67T+5T2 1 + 1.67T + 5T^{2}
7 12.77T+7T2 1 - 2.77T + 7T^{2}
11 14.15T+11T2 1 - 4.15T + 11T^{2}
13 16.87T+13T2 1 - 6.87T + 13T^{2}
17 1+0.976T+17T2 1 + 0.976T + 17T^{2}
19 12.68T+19T2 1 - 2.68T + 19T^{2}
23 1+1.61T+23T2 1 + 1.61T + 23T^{2}
29 18.22T+29T2 1 - 8.22T + 29T^{2}
31 11.04T+31T2 1 - 1.04T + 31T^{2}
37 1+1.30T+37T2 1 + 1.30T + 37T^{2}
41 14.84T+41T2 1 - 4.84T + 41T^{2}
43 19.84T+43T2 1 - 9.84T + 43T^{2}
47 1+12.4T+47T2 1 + 12.4T + 47T^{2}
53 1+7.34T+53T2 1 + 7.34T + 53T^{2}
59 1+9.05T+59T2 1 + 9.05T + 59T^{2}
61 1+1.28T+61T2 1 + 1.28T + 61T^{2}
67 1+4.64T+67T2 1 + 4.64T + 67T^{2}
71 1+5.62T+71T2 1 + 5.62T + 71T^{2}
73 1+4.56T+73T2 1 + 4.56T + 73T^{2}
79 14.65T+79T2 1 - 4.65T + 79T^{2}
83 1+5.76T+83T2 1 + 5.76T + 83T^{2}
89 1+4.54T+89T2 1 + 4.54T + 89T^{2}
97 18.57T+97T2 1 - 8.57T + 97T^{2}
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   L(s)=p j=12(1αj,pps)1L(s) = \displaystyle\prod_p \ \prod_{j=1}^{2} (1 - \alpha_{j,p}\, p^{-s})^{-1}

Imaginary part of the first few zeros on the critical line

−10.81842899596414765729474117144, −9.361097737216377301684157927361, −8.578901176151904908375190160625, −7.87751280807879778726118249213, −6.54011047749795226117728967444, −5.89226550628940752819413040868, −4.64125556362049322592678827678, −4.07878727395895045298731739855, −3.21596947489960235244913463399, −1.34664251315794041929588163134, 1.34664251315794041929588163134, 3.21596947489960235244913463399, 4.07878727395895045298731739855, 4.64125556362049322592678827678, 5.89226550628940752819413040868, 6.54011047749795226117728967444, 7.87751280807879778726118249213, 8.578901176151904908375190160625, 9.361097737216377301684157927361, 10.81842899596414765729474117144

Graph of the ZZ-function along the critical line