LMFDB - Bianchi cusp form 1369.1-b over $\Q(\sqrt{-163}) $

Base field: $\Q(\sqrt{-163}) $

Generator $a$, with minimal polynomial $x^2 - x + 41$; class number $1$.

Form

Weight:	2
Level:	1369.1 = $ \left(37\right) $
Level norm:	1369
Dimension:	1
CM:	no
Base change:	yes	37.2.a.a
Newspace:	2.0.163.1-1369.1 (dimension 2)
Sign of functional equation:	$+1$
Analytic rank:	$\ge2$, even

Atkin-Lehner eigenvalues

Norm	Prime	Eigenvalue
$ 1369 $	1369.1 = $ \left(37\right) $	$ -1 $

The Hecke eigenvalue field is $\Q$. The eigenvalue of the Hecke operator $T_{\mathfrak{p}}$ is $a_{\mathfrak{p}}$. The database contains 100 eigenvalues, of which 20 are currently shown below. We only show the eigenvalues $a_{\mathfrak{p}}$ for primes $\mathfrak{p}$ which do not divide the level.

$N(\mathfrak{p})$	$\mathfrak{p}$	$a_{\mathfrak{p}}$
$ 4 $	4.1 = $ \left(2\right) $	$ 0 $
$ 9 $	9.1 = $ \left(3\right) $	$ 3 $
$ 25 $	25.1 = $ \left(5\right) $	$ -6 $
$ 41 $	41.1 = $ \left(-a\right) $	$ -9 $
$ 41 $	41.2 = $ \left(a - 1\right) $	$ -9 $
$ 43 $	43.1 = $ \left(a + 1\right) $	$ 2 $
$ 43 $	43.2 = $ \left(a - 2\right) $	$ 2 $
$ 47 $	47.1 = $ \left(a + 2\right) $	$ -9 $
$ 47 $	47.2 = $ \left(a - 3\right) $	$ -9 $
$ 49 $	49.1 = $ \left(7\right) $	$ -13 $
$ 53 $	53.1 = $ \left(a + 3\right) $	$ 1 $
$ 53 $	53.2 = $ \left(a - 4\right) $	$ 1 $
$ 61 $	61.1 = $ \left(a + 4\right) $	$ -8 $
$ 61 $	61.2 = $ \left(a - 5\right) $	$ -8 $
$ 71 $	71.1 = $ \left(a + 5\right) $	$ 9 $
$ 71 $	71.2 = $ \left(a - 6\right) $	$ 9 $
$ 83 $	83.1 = $ \left(a + 6\right) $	$ -15 $
$ 83 $	83.2 = $ \left(a - 7\right) $	$ -15 $
$ 97 $	97.1 = $ \left(a + 7\right) $	$ 4 $
$ 97 $	97.2 = $ \left(a - 8\right) $	$ 4 $
$ 113 $	113.1 = $ \left(a + 8\right) $	$ -18 $

Overview	Random
Universe	Knowledge

Classical	Maass
Hilbert	Bianchi

Elliptic curves over $\Q$
Elliptic curves over $\Q(\alpha)$
Genus 2 curves over $\Q$
Higher genus families
Abelian varieties over $\F_{q}$

$N(\mathfrak{p})$	$\mathfrak{p}$	$a_{\mathfrak{p}}$
\( 4 \)	4.1 = \( \left(2\right) \)	\( 0 \)
\( 9 \)	9.1 = \( \left(3\right) \)	\( 3 \)
\( 25 \)	25.1 = \( \left(5\right) \)	\( -6 \)
\( 41 \)	41.1 = \( \left(-a\right) \)	\( -9 \)
\( 41 \)	41.2 = \( \left(a - 1\right) \)	\( -9 \)
\( 43 \)	43.1 = \( \left(a + 1\right) \)	\( 2 \)
\( 43 \)	43.2 = \( \left(a - 2\right) \)	\( 2 \)
\( 47 \)	47.1 = \( \left(a + 2\right) \)	\( -9 \)
\( 47 \)	47.2 = \( \left(a - 3\right) \)	\( -9 \)
\( 49 \)	49.1 = \( \left(7\right) \)	\( -13 \)
\( 53 \)	53.1 = \( \left(a + 3\right) \)	\( 1 \)
\( 53 \)	53.2 = \( \left(a - 4\right) \)	\( 1 \)
\( 61 \)	61.1 = \( \left(a + 4\right) \)	\( -8 \)
\( 61 \)	61.2 = \( \left(a - 5\right) \)	\( -8 \)
\( 71 \)	71.1 = \( \left(a + 5\right) \)	\( 9 \)
\( 71 \)	71.2 = \( \left(a - 6\right) \)	\( 9 \)
\( 83 \)	83.1 = \( \left(a + 6\right) \)	\( -15 \)
\( 83 \)	83.2 = \( \left(a - 7\right) \)	\( -15 \)
\( 97 \)	97.1 = \( \left(a + 7\right) \)	\( 4 \)
\( 97 \)	97.2 = \( \left(a - 8\right) \)	\( 4 \)
\( 113 \)	113.1 = \( \left(a + 8\right) \)	\( -18 \)

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Base field: \(\Q(\sqrt{-163}) \)

Form

Atkin-Lehner eigenvalues

Hecke eigenvalues

This project is supported by grants from the US National Science Foundation, the UK Engineering and Physical Sciences Research Council, and the Simons Foundation.

Label	2.0.163.1-1369.1-b
Base field	\(\Q(\sqrt{-163}) \)
Weight	$2$
Level norm	$1369$
Level	\( \left(37\right) \)
Dimension	$1$
CM	no
Base change	yes
Sign	$+1$
Analytic rank	\(\ge2\), even

Weight:	2
Level:	1369.1 = \( \left(37\right) \)
Level norm:	1369
Dimension:	1
CM:	no
Base change:	yes	37.2.a.a
Newspace:	2.0.163.1-1369.1 (dimension 2)
Sign of functional equation:	$+1$
Analytic rank:	\(\ge2\), even