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Let be a monad on a presentable -category . A morphism is called -closed if
is a pullback square.
The class of -closed morphisms satisfies the following closure properties:
(1) Every equivalence is -closed.
(2) The composite of two -closed morphisms is -closed.
(3) The left cancellation property is satisfied: If and and are -closed, then so is .
(4) Any retract of a -closed morphism is -closed.
(5) The class is closed under pullbacks which are preserved by .
A class of -closed morphism which is closed under pullback is an admissible structure defining a geometry in the sense of Lurie’s DAG.
Let be a slice of . The full sub--category on those morphisms into which are -closed is reflective and coreflective; i.e. fits into an adjoint triple
In particular is reflective and coreflective.
Let be a cohesive -topos equipped with infinitesimal cohesion
Then the class of formally étale morphisms in equals the class of -closed morphisms in which happen to lie in .
For the classs of -closed morphisms in we have in addition to the above closure properties also the following ones:
(1) If in a pullback square in the left arrow is in and the bottom arrow is an effective epimorphism, then the right arrow is in .
(2) Every morphism from a discrete object to the terminal object is in .
(3) is closed under colimit (taken in the arrow category).
(4) is closed under forming diagonals.
An object of is called formally étale object if there is a formally étale (effective) epimorphism (called atlas) from a -truncated object into .
The de Rham theorem holds for any formally étale object for which the de Rham theorem holds level-wise in regard to the Cech nerve induced from the atlas.
(1) Let is be a an paracompact object if there is a set of monomorphisms an -category. such A that the corresponding Cech groupoid-atlas of is degree-wise defined to be a coproduct morphism of copies of of an -truncated object to . A -atlas we call just an atlas.
(2) is hausdorff if is moreover étale.
(1) is a paracompact if there is a set of monomorphisms such that the corresponding Cech groupoid is degree-wise a coproduct of copies of .
(2) is hausdorff if is moreover étale.
The -topos of synthetic differential -groupoids is an infinitesimal cohesive neighborhood of the -topos of smoooth -groupoids.