Generic differential equations are strongly minimal

DeVilbiss, Matthew; Freitag, James

doi:10.1112/s0010437x23007212

Compositio Math.

2023

DOI: 10.1112/s0010437x23007212

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Generic differential equations are strongly minimal

Matthew DeVilbiss¹,

James Freitag²

Abstract: In this paper we develop a new technique for showing that a nonlinear algebraic differential equation is strongly minimal based on the recently developed notion of the degree of non-minimality of Freitag and Moosa. Our techniques are sufficient to show that generic order $h$ differential equations with non-constant coefficients are strongly minimal, answering a question of Poizat (1980).

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2024

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Cited by 2 publications

References 36 publications

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Finite-Dimensional Differential-Algebraic Permutation Groups

Freitag,

Jimenez,

Moosa

2024

J. Inst. Math. Jussieu

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Several structural results about permutation groups of finite rank definable in differentially closed fields of characteristic zero (and other similar theories) are obtained. In particular, it is shown that every finite rank definably primitive permutation group is definably isomorphic to an algebraic permutation group living in the constants. Applications include the verification, in differentially closed fields, of the finite Morley rank permutation group conjectures of Borovik-Deloro and Borovik-Cherlin. Applying the results to binding groups for internality to the constants, it is deduced that if complete types p and q are of rank m and n, respectively, and are nonorthogonal, then the $(m+3)$ rd Morley power of p is not weakly orthogonal to the $(n+3)$ rd Morley power of q. An application to transcendence of generic solutions of pairs of algebraic differential equations is given.

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Finite-Dimensional Differential-Algebraic Permutation Groups

Freitag,

Jimenez,

Moosa

2024

J. Inst. Math. Jussieu

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Zilber’s notion of logically perfect structure : universal covers

Baldwin,

Villaveces

2024

Model Th.

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Generic differential equations are strongly minimal

Cited by 2 publications

References 36 publications

Finite-Dimensional Differential-Algebraic Permutation Groups

Finite-Dimensional Differential-Algebraic Permutation Groups

Zilber’s notion of logically perfect structure : universal covers

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