Isogenies for Point Counting on Genus Two Hyperelliptic Curves with Maximal Real Multiplication

Sean Ballentine; Aurore Guillevic; Elisa Lorenzo García; Chloe Martindale; Maike Massierer; Benjamin Smith; Jaap Top

doi:10.1007/978-3-319-63931-4_3

Isogenies for Point Counting on Genus Two Hyperelliptic Curves with Maximal Real Multiplication

Sean Ballentine
, Aurore Guillevic
, Elisa Lorenzo García
, Chloe Martindale
, Maike Massierer
, Benjamin Smith
, Jaap Top

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Schoof’s classic algorithm allows point-counting for elliptic curves over finite fields in polynomial time. This algorithm was subsequently improved by Atkin, using factorizations of modular polynomials, and by Elkies, using a theory of explicit isogenies. Moving to Jacobians of genus-2 curves, the current state of the art for point counting is a generalization of Schoof’s algorithm. While we are currently missing the tools we need to generalize Elkies’ methods to genus 2, recently Martindale and Milio have computed analogues of modular polynomials for genus-2 curves whose Jacobians have real multiplication by maximal orders of small discriminant. In this chapter, we prove Atkin-style results for genus-2 Jacobians with real multiplication by maximal orders, with a view to using these new modular polynomials to improve the practicality of point-counting algorithms for these curves.

Original language	English
Title of host publication	Association for Women in Mathematics Series
Publisher	Springer
Pages	63-94
Number of pages	32
DOIs	https://doi.org/10.1007/978-3-319-63931-4_3
Publication status	Published - 1 Jan 2017

Publication series

Name	Association for Women in Mathematics Series
Volume	9
ISSN (Print)	2364-5733
ISSN (Electronic)	2364-5741

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10.1007/978-3-319-63931-4_3

Cite this

Ballentine, S., Guillevic, A., García, E. L., Martindale, C., Massierer, M., Smith, B., & Top, J. (2017). Isogenies for Point Counting on Genus Two Hyperelliptic Curves with Maximal Real Multiplication. In Association for Women in Mathematics Series (pp. 63-94). (Association for Women in Mathematics Series; Vol. 9). Springer. https://doi.org/10.1007/978-3-319-63931-4_3

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title = "Isogenies for Point Counting on Genus Two Hyperelliptic Curves with Maximal Real Multiplication",

abstract = "Schoof{\textquoteright}s classic algorithm allows point-counting for elliptic curves over finite fields in polynomial time. This algorithm was subsequently improved by Atkin, using factorizations of modular polynomials, and by Elkies, using a theory of explicit isogenies. Moving to Jacobians of genus-2 curves, the current state of the art for point counting is a generalization of Schoof{\textquoteright}s algorithm. While we are currently missing the tools we need to generalize Elkies{\textquoteright} methods to genus 2, recently Martindale and Milio have computed analogues of modular polynomials for genus-2 curves whose Jacobians have real multiplication by maximal orders of small discriminant. In this chapter, we prove Atkin-style results for genus-2 Jacobians with real multiplication by maximal orders, with a view to using these new modular polynomials to improve the practicality of point-counting algorithms for these curves.",

author = "Sean Ballentine and Aurore Guillevic and Garc{\'i}a, \{Elisa Lorenzo\} and Chloe Martindale and Maike Massierer and Benjamin Smith and Jaap Top",

note = "Publisher Copyright: {\textcopyright} 2017, The Author(s) and the Association for Women in Mathematics.",

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doi = "10.1007/978-3-319-63931-4\_3",

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Isogenies for Point Counting on Genus Two Hyperelliptic Curves with Maximal Real Multiplication. / Ballentine, Sean; Guillevic, Aurore; García, Elisa Lorenzo et al.
Association for Women in Mathematics Series. Springer, 2017. p. 63-94 (Association for Women in Mathematics Series; Vol. 9).

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

TY - CHAP

T1 - Isogenies for Point Counting on Genus Two Hyperelliptic Curves with Maximal Real Multiplication

AU - Ballentine, Sean

AU - Guillevic, Aurore

AU - García, Elisa Lorenzo

AU - Martindale, Chloe

AU - Massierer, Maike

AU - Smith, Benjamin

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AB - Schoof’s classic algorithm allows point-counting for elliptic curves over finite fields in polynomial time. This algorithm was subsequently improved by Atkin, using factorizations of modular polynomials, and by Elkies, using a theory of explicit isogenies. Moving to Jacobians of genus-2 curves, the current state of the art for point counting is a generalization of Schoof’s algorithm. While we are currently missing the tools we need to generalize Elkies’ methods to genus 2, recently Martindale and Milio have computed analogues of modular polynomials for genus-2 curves whose Jacobians have real multiplication by maximal orders of small discriminant. In this chapter, we prove Atkin-style results for genus-2 Jacobians with real multiplication by maximal orders, with a view to using these new modular polynomials to improve the practicality of point-counting algorithms for these curves.

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T3 - Association for Women in Mathematics Series

SP - 63

EP - 94

BT - Association for Women in Mathematics Series

PB - Springer

ER -

Isogenies for Point Counting on Genus Two Hyperelliptic Curves with Maximal Real Multiplication

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