Zeta-functions of curves over finite fields
Zeta-functions of curves over finite fields
Curves over finite fields are of great importance in cryptography and coding theory. Through studying their zeta-functions, we would be able to find out vital arithmetic and geometric information about them and their Jacobians, including the number of rational points on this kind of curves. In this paper, I investigate if it is possible to construct a curve over finite fields of a given genus $g$ whose zeta-function is given as a product of zeta-functions of $g$ elliptic curves, and find out alternative methods if it is not possible. Basically, I look for conditions which those $g$ elliptic curves should satisfy such that their product (of their Jacobians) is isogenous to the Jacobian of a curve of a given genus $g$. Then from this isogenous relationship I can determine the characteristic polynomial of the Frobenius endomorphism of the Jacobian of the new curve and by this characteristic polynomial I can thus determine the zeta-function of this new curve. By using the zeta-functions of curves in the form as generating functions, the number of rational points on curves can even be found out, which may lead to further researches relating to some applications in cryptography, coding theory and even information theory.
Chan, Kin Wai
881c8106-2b61-41af-a542-dd802c72ace1
9 May 2024
Chan, Kin Wai
881c8106-2b61-41af-a542-dd802c72ace1
[Unknown type: UNSPECIFIED]
Abstract
Curves over finite fields are of great importance in cryptography and coding theory. Through studying their zeta-functions, we would be able to find out vital arithmetic and geometric information about them and their Jacobians, including the number of rational points on this kind of curves. In this paper, I investigate if it is possible to construct a curve over finite fields of a given genus $g$ whose zeta-function is given as a product of zeta-functions of $g$ elliptic curves, and find out alternative methods if it is not possible. Basically, I look for conditions which those $g$ elliptic curves should satisfy such that their product (of their Jacobians) is isogenous to the Jacobian of a curve of a given genus $g$. Then from this isogenous relationship I can determine the characteristic polynomial of the Frobenius endomorphism of the Jacobian of the new curve and by this characteristic polynomial I can thus determine the zeta-function of this new curve. By using the zeta-functions of curves in the form as generating functions, the number of rational points on curves can even be found out, which may lead to further researches relating to some applications in cryptography, coding theory and even information theory.
Text
2405.05711v1
- Author's Original
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Published date: 9 May 2024
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Local EPrints ID: 509411
URI: http://eprints.soton.ac.uk/id/eprint/509411
PURE UUID: f1bbbd57-9ccb-40a5-b1f7-2be5ddf6dbb1
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Date deposited: 20 Feb 2026 17:45
Last modified: 21 Feb 2026 03:19
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Kin Wai Chan
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