Hilbert cusp form 6.6.371293.1-25.2-a

• Label: 6.6.371293.1-25.2-a
• Base field: \(\Q(\zeta_{13})^+\)
• Weight: $[2, 2, 2, 2, 2, 2]$
• Level norm: $25$
• Level: $[25,5,w^{3} - w^{2} - 3w + 1]$
• Dimension: $3$
• CM: no
• Base change: yes

Base field \(\Q(\zeta_{13})^+\)

Generator \(w\), with minimal polynomial \(x^{6} - x^{5} - 5x^{4} + 4x^{3} + 6x^{2} - 3x - 1\); narrow class number \(1\) and class number \(1\).

Form

Weight:	$[2, 2, 2, 2, 2, 2]$
Level:	$[25,5,w^{3} - w^{2} - 3w + 1]$
Dimension:	$3$
CM:	no
Base change:	yes
Newspace dimension:	$3$

Hecke eigenvalues ($q$-expansion)

The Hecke eigenvalue field is $\Q(e)$ where $e$ is a root of the defining polynomial:

\(x^{3} - 48x - 16\)

  Show full eigenvalues   Hide large eigenvalues

Norm	Prime	Eigenvalue
13	$[13, 13, w^{5} - 5w^{3} + 4w]$	$\phantom{-}e$
25	$[25, 5, w^{5} - 5w^{3} + 6w - 1]$	$-\frac{1}{4}e^{2} + e + 10$
25	$[25, 5, -w^{3} + w^{2} + 3w - 1]$	$-1$
25	$[25, 5, w^{5} - 4w^{3} - w^{2} + 3w + 2]$	$-e + 2$
27	$[27, 3, w^{4} - w^{3} - 4w^{2} + 2w + 2]$	$-\frac{1}{2}e + 4$
27	$[27, 3, w^{4} - w^{3} - 4w^{2} + 2w + 3]$	$-\frac{1}{2}e + 4$
53	$[53, 53, -w^{4} + w^{3} + 3w^{2} - 2w + 1]$	$-\frac{1}{2}e^{2} + \frac{1}{2}e + 12$
53	$[53, 53, -w^{4} + w^{3} + 4w^{2} - 3w - 4]$	$\phantom{-}e + 2$
53	$[53, 53, -w^{5} + w^{4} + 4w^{3} - 4w^{2} - 3w + 1]$	$\phantom{-}e + 2$
53	$[53, 53, w^{3} - 2w - 2]$	$\phantom{-}\frac{1}{4}e^{2} - e - 6$
53	$[53, 53, w^{5} - 5w^{3} - w^{2} + 5w]$	$\phantom{-}\frac{1}{4}e^{2} - e - 6$
53	$[53, 53, -w^{4} + 4w^{2} + w - 4]$	$-\frac{1}{2}e^{2} + \frac{1}{2}e + 12$
64	$[64, 2, -2]$	$-\frac{1}{4}e^{2} - e + 15$
79	$[79, 79, -2w^{5} + w^{4} + 9w^{3} - 3w^{2} - 9w + 2]$	$\phantom{-}4$
79	$[79, 79, -w^{5} - w^{4} + 5w^{3} + 4w^{2} - 6w - 1]$	$\phantom{-}4$
79	$[79, 79, w^{3} - w^{2} - 4w + 1]$	$-\frac{1}{2}e^{2} - \frac{1}{2}e + 14$
79	$[79, 79, -2w^{5} + 2w^{4} + 9w^{3} - 7w^{2} - 9w + 3]$	$\phantom{-}\frac{1}{2}e - 10$
79	$[79, 79, -2w^{4} + w^{3} + 7w^{2} - 3w - 3]$	$\phantom{-}\frac{1}{2}e - 10$
79	$[79, 79, -w^{5} + 6w^{3} - w^{2} - 8w + 1]$	$-\frac{1}{2}e^{2} - \frac{1}{2}e + 14$
103	$[103, 103, 2w^{4} - 7w^{2} - w + 3]$	$-\frac{1}{4}e^{2} - e + 16$

Display number of eigenvalues

Atkin-Lehner eigenvalues

Norm	Prime	Eigenvalue
$25$	$[25,5,w^{3} - w^{2} - 3w + 1]$	$1$