When I was reading a paper, I came across a statement like "Since ince $M$ is affine, the trivial bundle is ample and ..." I think that line bundle $L$ on a variety $M$ is ample if it the global sections of $L^{\otimes n}$ give an embedding $M$ to some projective space. Is this clear for the trivial line bundle of affine variety?
2026-04-06 04:18:47.1775449127
Is the trivial bundle ample on an affine variety?
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Quoting Hartshorne, Example II.7.4.2:
Hartshorne's definition of ampleness (equivalent to yours; see Theorem II.7.6) is that $L$ is ample if, for any coherent sheaf $F$ on $X$, there exists an integer $n_0$ such that $F \otimes L^n$ is generated by globals for all $n > n_0$. You get the example I quote above upon recalling (II.5.16.2) that coherent sheaves on an affine scheme are determined by their global sections, and you get the result you quote because the trivial bundle is invertible.