Motivated by my ignorance here, if $X$ is a projective toric variety, is $H^m(X, \mathcal O_X) \cong \begin{cases} 0 & m > 0 \\ \mathbb C & m = 1 \end{cases} $ as for $\mathbb P^n$?
Cohomology of $\mathcal O_X$ for toric varieties
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algebraic-geometry
homology-cohomology
toric-geometry
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0Whoops, I fixed it. – 2010-12-02
1 Answers
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Yes, this is true, at least for varieties over the complex numbers $\mathbb{C}$. Indeed, a toric variety over an algebraically closed field is rational (i.e., birational to projective space). In characteristic zero, rational connectedness is a birational invariant, so toric varieties are rationally connected. Finally, any rationally connected variety is $\mathcal{O}$-acyclic, which is the name for the conclusion that you want. See e.g. here for this last implication.
The conclusion might well hold more generally; I am not an expert in these matters. You may want to ask your question on MathOverflow if you are not satisfied with this answer.
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0Alternatively, one uses that the Hodge numbers $h^{p,0}$ are birational invariants. (I hope this comment might be useful to someone some day. Your answer definitely was useful for me.) – 2018-04-21