Is there a decent way to describe the canonical module of the ring $\frac{\mathbb{C}[x,y,z]}{x^2-yz}$? I am not necessarily looking for an explicit description of the canonical module, but I would appreciate any and all suggestions for describing its structure.
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asked May 23, 2013 at 21:28
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3$\begingroup$ That is a hypersurface ring, so Gorenstein, so the canonical module is the ring itself. $\endgroup$– Graham LeuschkeCommented May 23, 2013 at 21:37
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1 Answer
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As Graham points out, this ring is Gorenstein so the canonical module is isomorphic to the ring itself. For most hypersurfaces, this is all you can say. However, I think in this case one can say slightly more.
The ring is also toric $k[x,y,z]/(x^2 - yz) = k[ab, a^2, b^2]$. Thus we have a canonical way to identify the canonical module/divisor.
Recall that $K_X = -\sum \text{[torus invariant prime divisors]}$. For this ring, we are looking for height 1 primes that are toric (monomial). There are two $(ab, a^2) = (x,y)$ and $(ab, b^2) = (x,z)$. The negative sum of the corresponding divisors just corresponds to the intersection of the two ideals. In this case, we get $(ab, a^2) \cap (ab, b^2) = (ab) = (x)$. So the ideal $(x)$ is the canonical module.
Determinantal rings also have explicit canonical choices for canonical modules if I recall correctly. Graded rings have graded canonical modules which have some canonical choice of degree.
answered May 23, 2013 at 22:53