“p-adic” presentation of surfaces












4












$begingroup$


On several occasions I heard about the following result:



For "certain" lattices $Lambda$ in $SL_2(mathbb{R})$, and almost any prime $p$ there exists a lattice $Gamma$ in $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$ and a compact subgroup $K$ of $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$ such that there is an isomorphism between
$$
Lambda backslash SL_2(mathbb{R})
$$

and
$$
Gamma backslash SL_2(mathbb{R})times SL_2(mathbb{Q}_p)/K.
$$

I know how to prove this for $Lambda = SL_2(mathbb{Z})$. Then $Gamma = SL_2(mathbb{Z}[1/p])$ (diagonally in $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$) and $K={1}times SL_2(mathbb{Z}_p)$ and the isomorphism is a quite easy map.



I would like to find a reference for more general $Lambda$, preferably with an explicit statement of the isomorphism and an explanation, what means "certain". Any help is highly appreciated!










share|cite|improve this question











$endgroup$












  • $begingroup$
    Could you explain what you mean by "isomorphism"? (could you also put parentheses in your double coset? it took me 1 minute to read it: $Gammabackslash (dotstimesdots)/K$).
    $endgroup$
    – YCor
    Jan 18 '13 at 23:49
















4












$begingroup$


On several occasions I heard about the following result:



For "certain" lattices $Lambda$ in $SL_2(mathbb{R})$, and almost any prime $p$ there exists a lattice $Gamma$ in $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$ and a compact subgroup $K$ of $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$ such that there is an isomorphism between
$$
Lambda backslash SL_2(mathbb{R})
$$

and
$$
Gamma backslash SL_2(mathbb{R})times SL_2(mathbb{Q}_p)/K.
$$

I know how to prove this for $Lambda = SL_2(mathbb{Z})$. Then $Gamma = SL_2(mathbb{Z}[1/p])$ (diagonally in $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$) and $K={1}times SL_2(mathbb{Z}_p)$ and the isomorphism is a quite easy map.



I would like to find a reference for more general $Lambda$, preferably with an explicit statement of the isomorphism and an explanation, what means "certain". Any help is highly appreciated!










share|cite|improve this question











$endgroup$












  • $begingroup$
    Could you explain what you mean by "isomorphism"? (could you also put parentheses in your double coset? it took me 1 minute to read it: $Gammabackslash (dotstimesdots)/K$).
    $endgroup$
    – YCor
    Jan 18 '13 at 23:49














4












4








4





$begingroup$


On several occasions I heard about the following result:



For "certain" lattices $Lambda$ in $SL_2(mathbb{R})$, and almost any prime $p$ there exists a lattice $Gamma$ in $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$ and a compact subgroup $K$ of $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$ such that there is an isomorphism between
$$
Lambda backslash SL_2(mathbb{R})
$$

and
$$
Gamma backslash SL_2(mathbb{R})times SL_2(mathbb{Q}_p)/K.
$$

I know how to prove this for $Lambda = SL_2(mathbb{Z})$. Then $Gamma = SL_2(mathbb{Z}[1/p])$ (diagonally in $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$) and $K={1}times SL_2(mathbb{Z}_p)$ and the isomorphism is a quite easy map.



I would like to find a reference for more general $Lambda$, preferably with an explicit statement of the isomorphism and an explanation, what means "certain". Any help is highly appreciated!










share|cite|improve this question











$endgroup$




On several occasions I heard about the following result:



For "certain" lattices $Lambda$ in $SL_2(mathbb{R})$, and almost any prime $p$ there exists a lattice $Gamma$ in $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$ and a compact subgroup $K$ of $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$ such that there is an isomorphism between
$$
Lambda backslash SL_2(mathbb{R})
$$

and
$$
Gamma backslash SL_2(mathbb{R})times SL_2(mathbb{Q}_p)/K.
$$

I know how to prove this for $Lambda = SL_2(mathbb{Z})$. Then $Gamma = SL_2(mathbb{Z}[1/p])$ (diagonally in $SL_2(mathbb{R})times SL_2(mathbb{Q}_p)$) and $K={1}times SL_2(mathbb{Z}_p)$ and the isomorphism is a quite easy map.



I would like to find a reference for more general $Lambda$, preferably with an explicit statement of the isomorphism and an explanation, what means "certain". Any help is highly appreciated!







group-theory reference-request hyperbolic-geometry lattices-in-lie-groups






share|cite|improve this question















share|cite|improve this question













share|cite|improve this question




share|cite|improve this question








edited Dec 3 '18 at 1:29









Paul Plummer

5,20721950




5,20721950










asked Jan 13 '13 at 10:22









Roger WeilikRoger Weilik

211




211












  • $begingroup$
    Could you explain what you mean by "isomorphism"? (could you also put parentheses in your double coset? it took me 1 minute to read it: $Gammabackslash (dotstimesdots)/K$).
    $endgroup$
    – YCor
    Jan 18 '13 at 23:49


















  • $begingroup$
    Could you explain what you mean by "isomorphism"? (could you also put parentheses in your double coset? it took me 1 minute to read it: $Gammabackslash (dotstimesdots)/K$).
    $endgroup$
    – YCor
    Jan 18 '13 at 23:49
















$begingroup$
Could you explain what you mean by "isomorphism"? (could you also put parentheses in your double coset? it took me 1 minute to read it: $Gammabackslash (dotstimesdots)/K$).
$endgroup$
– YCor
Jan 18 '13 at 23:49




$begingroup$
Could you explain what you mean by "isomorphism"? (could you also put parentheses in your double coset? it took me 1 minute to read it: $Gammabackslash (dotstimesdots)/K$).
$endgroup$
– YCor
Jan 18 '13 at 23:49










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