arXiv:2309.12192 Abstract | arXiv Analytics

arXiv:2309.12192 [math.AG]Abstract References Reviews Resources

Real versus complex plane curves

Published 2023-09-21Version 1

We prove that a smooth, complex plane curve $C$ of odd degree can be defined by a polynomial with real coefficients if and only if $C$ is isomorphic to its complex conjugate. Counterexamples are known for curves of even degree. More generally, we prove that a plane curve $C$ over an algebraically closed field $K$ of characteristic $0$ with field of moduli $k_{C}\subset K$ is defined by a polynomial with coefficients in $k'$, where $k'/k_{C}$ is an extension with $[k':k_{C}]\le 3$ and $[k':k_{C}]\mid \operatorname{deg} C$.

Comments: Comments are welcome! In particular, I would be very grateful for historical information regarding the statement of Theorem 1

Categories: math.AG, math.CV

Keywords: complex plane curve, real coefficients, complex conjugate, odd degree, polynomial

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arXiv:2309.12192 [math.AG]Abstract References Reviews Resources

Real versus complex plane curves

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arXiv:2309.12192 [math.AG]AbstractReferencesReviewsResources

Real versus complex plane curves

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arXiv:2309.12192 [math.AG]Abstract References Reviews Resources