Gene Freudenburg scite author profile

Gene Freudenburg

5Publications

357Citation Statements Received

33Citation Statements Given

How they've been cited

319

353

How they cite others

Affiliations

Western Michigan University, University of Southern Indiana, Ball State University

Publications

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Algebraic Theory of Locally Nilpotent Derivations

Freudenburg

2017

143

137

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A Counterexample to Hilbert's Fourteenth Problem in Dimension 5

Daigle

Freudenburg

1999

Journal of Algebra

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A counterexample to Hilbert's Fourteenth Problem in dimension six

Freudenburg

2000

Transformation Groups

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Locally Nilpotent Derivations over a UFD and an Application to Rank Two Locally Nilpotent Derivations ofk[X1,…,X]

Daigle

Freudenburg

1998

Journal of Algebra

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Embeddings of Danielewski surfaces

Freudenburg

Moser-Jauslin

2003

Mathematische Zeitschrift

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A Danielewski surface is defined by a polynomial of the form P = x n z − p(y). Define also the polynomial P = x n z − r(x)p(y) where r(x) is a non-constant polynomial of degree ≤ n − 1 and r(0) = 1. We show that, when n ≥ 2 and deg p(y) ≥ 2, the general fibers of P and P are not isomorphic as algebraic surfaces, but that the zero fibers are isomorphic. Consequently, for every nonspecial Danielewski surface S, there exist non-equivalent algebraic embeddings of S in C 3 . Using different methods, we also give non-equivalent embeddings of the surfaces xz = (y d n − 1) for an infinite sequence of integers d n .We then consider a certain algebraic action of the orthogonal group O(2) on C 4 which was first considered by Schwarz and then studied by Masuda and Petrie, who proved that this action could not be linearized. This was done by comparing the strata of this action to those of the induced tangent space action. Inequivalent embeddings of a certain singular Danielewski surface S in C 3 are found. We generalize their result and show how this leads to an example of two smooth algebraic hypersurfaces in C 3 which are algebraically non-isomorphic but holomorphically isomorphic.

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