# Properties

 Degree 2 Conductor $3 \cdot 5 \cdot 7$ Sign $0.953 + 0.302i$ Motivic weight 2 Primitive yes Self-dual no Analytic rank 0

# Related objects

## Dirichlet series

 L(s)  = 1 + (0.897 + 1.55i)2-s + (−2.91 − 0.725i)3-s + (0.387 − 0.671i)4-s + (3.31 − 3.74i)5-s + (−1.48 − 5.17i)6-s + (−1.39 − 6.85i)7-s + 8.57·8-s + (7.94 + 4.22i)9-s + (8.79 + 1.78i)10-s + (−1.00 − 0.581i)11-s + (−1.61 + 1.67i)12-s + 12.4i·13-s + (9.41 − 8.32i)14-s + (−12.3 + 8.49i)15-s + (6.14 + 10.6i)16-s + (9.31 − 16.1i)17-s + ⋯
 L(s)  = 1 + (0.448 + 0.777i)2-s + (−0.970 − 0.241i)3-s + (0.0969 − 0.167i)4-s + (0.662 − 0.748i)5-s + (−0.247 − 0.862i)6-s + (−0.199 − 0.979i)7-s + 1.07·8-s + (0.883 + 0.469i)9-s + (0.879 + 0.178i)10-s + (−0.0916 − 0.0528i)11-s + (−0.134 + 0.139i)12-s + 0.959i·13-s + (0.672 − 0.594i)14-s + (−0.824 + 0.566i)15-s + (0.384 + 0.665i)16-s + (0.547 − 0.949i)17-s + ⋯

## Functional equation

\begin{aligned}\Lambda(s)=\mathstrut & 105 ^{s/2} \, \Gamma_{\C}(s) \, L(s)\cr =\mathstrut & (0.953 + 0.302i)\, \overline{\Lambda}(3-s) \end{aligned}
\begin{aligned}\Lambda(s)=\mathstrut & 105 ^{s/2} \, \Gamma_{\C}(s+1) \, L(s)\cr =\mathstrut & (0.953 + 0.302i)\, \overline{\Lambda}(1-s) \end{aligned}

## Invariants

 $$d$$ = $$2$$ $$N$$ = $$105$$    =    $$3 \cdot 5 \cdot 7$$ $$\varepsilon$$ = $0.953 + 0.302i$ motivic weight = $$2$$ character : $\chi_{105} (74, \cdot )$ primitive : yes self-dual : no analytic rank = $$0$$ Selberg data = $$(2,\ 105,\ (\ :1),\ 0.953 + 0.302i)$$ $$L(\frac{3}{2})$$ $$\approx$$ $$1.47459 - 0.228537i$$ $$L(\frac12)$$ $$\approx$$ $$1.47459 - 0.228537i$$ $$L(2)$$ not available $$L(1)$$ not available

## Euler product

$L(s) = \prod_{p \text{ prime}} F_p(p^{-s})^{-1}$where, for $p \notin \{3,\;5,\;7\}$,$$F_p(T)$$ is a polynomial of degree 2. If $p \in \{3,\;5,\;7\}$, then $F_p(T)$ is a polynomial of degree at most 1.
$p$$F_p(T)$
bad3 $$1 + (2.91 + 0.725i)T$$
5 $$1 + (-3.31 + 3.74i)T$$
7 $$1 + (1.39 + 6.85i)T$$
good2 $$1 + (-0.897 - 1.55i)T + (-2 + 3.46i)T^{2}$$
11 $$1 + (1.00 + 0.581i)T + (60.5 + 104. i)T^{2}$$
13 $$1 - 12.4iT - 169T^{2}$$
17 $$1 + (-9.31 + 16.1i)T + (-144.5 - 250. i)T^{2}$$
19 $$1 + (15.2 + 26.3i)T + (-180.5 + 312. i)T^{2}$$
23 $$1 + (-13.7 - 23.7i)T + (-264.5 + 458. i)T^{2}$$
29 $$1 - 52.6iT - 841T^{2}$$
31 $$1 + (17.2 - 29.9i)T + (-480.5 - 832. i)T^{2}$$
37 $$1 + (-0.357 + 0.206i)T + (684.5 - 1.18e3i)T^{2}$$
41 $$1 - 17.2iT - 1.68e3T^{2}$$
43 $$1 + 7.86iT - 1.84e3T^{2}$$
47 $$1 + (-17.4 - 30.1i)T + (-1.10e3 + 1.91e3i)T^{2}$$
53 $$1 + (17.8 - 30.9i)T + (-1.40e3 - 2.43e3i)T^{2}$$
59 $$1 + (-32.3 - 18.6i)T + (1.74e3 + 3.01e3i)T^{2}$$
61 $$1 + (-25.4 - 44.0i)T + (-1.86e3 + 3.22e3i)T^{2}$$
67 $$1 + (-24.9 - 14.4i)T + (2.24e3 + 3.88e3i)T^{2}$$
71 $$1 + 66.8iT - 5.04e3T^{2}$$
73 $$1 + (-46.7 - 27.0i)T + (2.66e3 + 4.61e3i)T^{2}$$
79 $$1 + (16.6 + 28.8i)T + (-3.12e3 + 5.40e3i)T^{2}$$
83 $$1 + 72.0T + 6.88e3T^{2}$$
89 $$1 + (-41.4 + 23.9i)T + (3.96e3 - 6.85e3i)T^{2}$$
97 $$1 + 66.7iT - 9.40e3T^{2}$$
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\begin{aligned}L(s) = \prod_p \ \prod_{j=1}^{2} (1 - \alpha_{j,p}\, p^{-s})^{-1}\end{aligned}

## Imaginary part of the first few zeros on the critical line

−13.52110944456932455560070812235, −12.75856626203735151549590216616, −11.31447666967581857997029463902, −10.42902956400630642480667644428, −9.223194184606070836345323800595, −7.27741105538359785776157284541, −6.67370082564247757824498020038, −5.34887480692151686938557320669, −4.58821510741569825762490029431, −1.27745791688507778411513181386, 2.21643567473004206598140787716, 3.77234684933574703523074474376, 5.50646854727579582746101589908, 6.38780192583831413078696661474, 8.007937786821701502611548546870, 9.915738942365409339510515021583, 10.53635514307490227854665542719, 11.50345266648139944959470090499, 12.54475690631010337202131508852, 13.01418306407309469390047649517