Derived tensor product

In algebra, given a differential graded algebra A over a commutative ring R, the derived tensor product functor is

${\displaystyle -{\otimes }_A^{\mathbf{\text{𝐋}}}-:D({𝖬}_A)\times D({}_A𝖬)\to D({}_R𝖬)}$

where ${\displaystyle {𝖬}_A}$ and ${\displaystyle {}_A𝖬}$ are the categories of right A-modules and left A-modules and D refers to the homotopy category (i.e., derived category).^[1] By definition, it is the left derived functor of the tensor product functor ${\displaystyle -{\otimes }_A-:{𝖬}_A\times {}_A𝖬\to {}_R𝖬}$.

If R is an ordinary ring and M, N right and left modules over it, then, regarding them as discrete spectra, one can form the smash product of them:

${\displaystyle M{\otimes }_R^{L}N}$

whose i-th homotopy is the i-th Tor:

${\displaystyle {\pi }_i(M{\otimes }_R^{L}N)={\mathrm{Tor}}_i^R(M,N)}$.

It is called the derived tensor product of M and N. In particular, ${\displaystyle {\pi }_0(M{\otimes }_R^{L}N)}$ is the usual tensor product of modules M and N over R.

Geometrically, the derived tensor product corresponds to the intersection product (of derived schemes).

Example: Let R be a simplicial commutative ring, Q(R) → R be a cofibrant replacement, and ${\displaystyle {\Omega }_{Q(R)}^1}$ be the module of Kähler differentials. Then

${\displaystyle {𝕃}_R={\Omega }_{Q(R)}^1{\otimes }_{Q(R)}^{L}R}$

is an R-module called the cotangent complex of R. It is functorial in R: each R → S gives rise to ${\displaystyle {𝕃}_R\to {𝕃}_S}$. Then, for each R → S, there is the cofiber sequence of S-modules

${\displaystyle {𝕃}_{S/R}\to {𝕃}_R{\otimes }_R^{L}S\to {𝕃}_S.}$

The cofiber ${\displaystyle {𝕃}_{S/R}}$ is called the relative cotangent complex.

• derived scheme (derived tensor product gives a derived version of a scheme-theoretic intersection.)

Template:Reflist

• Lurie, J., Spectral Algebraic Geometry (under construction)
• Lecture 4 of Part II of Moerdijk-Toen, Simplicial Methods for Operads and Algebraic Geometry
• Ch. 2.2. of Toen-Vezzosi's HAG II

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