5
$\begingroup$

This is a question on geometric tilting theory. On smooth projective variety it is possible to define in general tilting object as perfect complex that satisfy some properties, but are there examples of tilting objects that are actually complexes? All examples I know are vector bundles obtained as sums of exceptional sequences. What would be examples of different nature?

Edit: if we denote variety $X$ then tilting object $T$ in $D(X)$ is a perfect complex (or from the point of view of abstract triangulated categories "compact object") such that $T$ generates $D(X)$ and $Ext^i(T,T)=0$ for $i \neq 0$.

$\endgroup$
1
  • $\begingroup$ Could you add the definition of a tilting complex for concreteness? $\endgroup$ Mar 5, 2013 at 19:14

2 Answers 2

6
$\begingroup$

The answer to your more specific question is yes, there are tilting objects that involve complexes not quasi-isomorphic to any vector bundle. Consider the blowup $X$ of $\mathbb{P}^2$ at a single point $p$. Then, Orlov showed that there is a semiorthogonal decomposition $D^b(X)=\langle e,O_X,O_X(1),O_X(2)\rangle$, where $O_X(i)$ is the pullback of $O_{\mathbb{P}^2}(i)$, and where $e$ can be taken to be $i_*O_E(-1)$, where $i:E\rightarrow X$ is the inclusion of the exceptional divisor. The objects $e,O_X(i)$ are in fact all exceptional, so their direct sum is a tilting object for $D^b(X)$. However, $e$ is not quasi-isomorphic to a vector bundle, because it is supported along the exceptional divisor.

$\endgroup$
2
  • $\begingroup$ dear benjamin, +1, I now await your third answer where you exhibit a tilting object with cohomology concentrated not just in degree zero! $\endgroup$
    – Jacob Bell
    Mar 9, 2013 at 21:38
  • 2
    $\begingroup$ Exceptional sequences of line bundles having non-zero cohomology certainly exist (for instance, see Hille-Perling 2006). By tensoring with a suitable line bundle, we assume that the structure sheaf $O_X$ appears as an element of the sequence. However, the direct sum of these line bundles is not a tilting complex, as usually defined. The existence of the cohomology is an obstruction to finding an equivalence $D^b(X)\cong D^b(A)$ where $A$ is an ordinary associative algebra. An arbitrary exceptional sequence determines an equivalence $D^b(X)\cong D^b(A)$, but where $A$ is a dg algebra. $\endgroup$ Mar 11, 2013 at 17:29
2
$\begingroup$

One trivial example is the derived category of a central simple algebra $D(A)$ where the class of $A$ in the Brauer group is non-zero. A non-zero simple left ideal $I$ of $A$ is a tilting complex, but the endomorphism algebra of $I$ is not the base field $k$ but rather $D$, the division algebra Morita equivalent to $A$. So, it is not an exceptional object. Similar examples arise in the derived categories of Severi-Brauer varieties.

$\endgroup$
3
  • $\begingroup$ could you expand your comment on Brauer-Severi varieties please? $\endgroup$
    – Jacob Bell
    Mar 5, 2013 at 23:18
  • $\begingroup$ A Severi-Brauer variety is a twisted form of projective space over a field. The first example is a smooth projective genus $0$ curve without any points. Such a curve $C$ is the SB variety associated to a quaternion algebra $D$. The derived category of $C$ has a semiorthogonal decomposition $<e_1,e_2>$ where $Hom(e_1,e_1[n])=0$ if $n\neq 0$ and $k$ if $n=0$, while $Hom(e_2,e_2[n])=0$ if $n\neq 0$ and $D$ if $k=0$. Thus, $e_2$ is not an exceptional object in the classical sense, but the object $e_1\oplus e_2$ is a tilting complex. This was worked out in detail by Marcello Bernardara in 2009. $\endgroup$ Mar 6, 2013 at 3:36
  • $\begingroup$ I'm sorry, but I'm nor familiar with SB varieties, but thank for bringing this papers to my attention, it looks like beautiful and interesting result, definitively something that I want to learn, but I need some time first on SB varieties. $\endgroup$ Mar 9, 2013 at 12:30

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.