# Properties

 Degree 4 Conductor $2^{2} \cdot 3^{3} \cdot 11^{3}$ Sign $1$ Motivic weight 3 Primitive yes Self-dual yes

# Learn more about

(not yet available)

## Dirichlet series

 $L(s, E, \mathrm{sym}^{3})$  = 1 − 0.192·3-s − 4-s − 1.07·5-s − 1.07·7-s + 0.0370·9-s − 0.0274·11-s + 0.192·12-s + 1.28·13-s + 0.206·15-s + 16-s + 1.02·17-s + 0.821·19-s + 1.07·20-s + 0.207·21-s − 1.30·23-s + 0.912·25-s − 0.00712·27-s + 1.07·28-s + 0.00527·33-s + 1.15·35-s − 0.0370·36-s + 1.01·37-s − 0.246·39-s + 0.496·43-s + 0.0274·44-s − 0.0397·45-s − 0.192·48-s + ⋯

## Functional equation

\begin{aligned} \Lambda(s,E,\mathrm{sym}^{3})=\mathstrut & 143748 ^{s/2} \, \Gamma_{\C}(s+1.5) \, \Gamma_{\C}(s+0.5) \, L(s, E, \mathrm{sym}^{3})\cr =\mathstrut & \, \Lambda(1-{s}, E,\mathrm{sym}^{3}) \end{aligned}

## Invariants

 $$d$$ = $$4$$ $$N$$ = $$143748$$    =    $$2^{2} \cdot 3^{3} \cdot 11^{3}$$ $$\varepsilon$$ = $1$ primitive : yes self-dual : yes Selberg data = $(4,\ 143748,\ (\ :1.5, 0.5),\ 1)$

## Euler product

\begin{aligned} L(s, E, \mathrm{sym}^{3}) = (1+8\ 2^{-2 s})^{-1}(1+3^{ -s})^{-1}(1+11^{ -s})^{-1}\prod_{p \nmid 132 }\prod_{j=0}^{3} \left(1- \frac{\alpha_p^j\beta_p^{3-j}}{p^{s}} \right)^{-1} \end{aligned}

## Particular Values

L(1/2): not computed L(1): not computed

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

Zeros not available.

## Graph of the $Z$-function along the critical line

Plot not available.