Characterizations of standard derived equivalences of diagrams of dg categories and their gluings

Abstract: A diagram consisting of differential graded (dg for short) categories and dg functors is formulated in this paper as a colax functor $X$ from a small category $I$ to the 2-category k-dgCat of small dg categories, dg functors and dg natural transformations for a fixed commutative ring $\mathbb{k}$. If $I$ is a group regarded as a category with only one object $$, then $X$ is nothing but a colax action of the group $I$ on the dg category $X()$. In this sense, this $X$ can be regarded as a generalization of a dg category with a colax action of a group. We define a notion of standard derived equivalence between such colax functors by generalizing the corresponding notion between dg categories with a group action. Our first main result gives some characterizations of this notion, one of which is given in terms of generalized versions of a tilting object and a quasi-equivalence. On the other hand, for such a colax functor $X$, the dg categories $X(i)$ with $i$ objects of $I$ can be glued together to have a single dg category $\int X$, called the Grothendieck construction of $X$. Our second main result insists that for such colax functors $X$ and $X'$, the Grothendieck construction $\int X'$ is derived equivalent to $\int X$ if there exists a standard derived equivalence from $X'$ to $X$. These results generalize the main results of \cite{Asa-a} and \cite{Asa-13} to the dg case, respectively. These are new even for dg categories with group actions. In particular, the second result gives a new tool to show the derived equivalence between the orbit categories of dg categories with group actions, which will be illustrated in some examples.