An algebraic C2-equivariant B\'ezout's theorem
Abstract
B\'ezout's theorem, nonequivariantly, can be interpreted as a calculation of the Euler class of a sum of line bundles over complex projective space, expressing it in terms of the rank of the bundle and its degree. We give here a generalization to the C2-equivariant context, using the calculation of the cohomology of a C2-complex projective space from an earlier paper. We use ordinary C2-cohomology with Burnside ring coefficients and an extended grading necessary to define the Euler class, which we express in terms of the equivariant rank of the bundle and the degrees of the bundle and its fixed subbundles. We do similar calculations using constant Z coefficients and Borel cohomology and compare the results.
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