Das Adams-Riemann-Roch-Theorem in der höheren äquivarianten K-Theorie.
Decomposition of the Grothendieck group of stable categories of finite groups.
Decompositions of the category of noncommutative sets and Hochschild and cyclic homology
In this note we show that the main results of the paper [PR] can be obtained as consequences of more general results concerning categories whose morphisms can be uniquely presented as compositions of morphisms of their two subcategories with the same objects. First we will prove these general results and then we will apply it to the case of finite noncommutative sets.
Densities of 4-ranks of K₂(𝒪)
Descent, motives and K-theory.
Differential Equations associated to Families of Algebraic Cycles
We develop a theory of differential equations associated to families of algebraic cycles in higher Chow groups (i.e., motivic cohomology groups). This formalism is related to inhomogenous Picard–Fuchs type differential equations. For a families of K3 surfaces the corresponding non–linear ODE turns out to be similar to Chazy’s equation.
Differentials in the homological homotopy fixed point spectral sequence.
Dilogarithm, grassmannian complex and scissors congruence groups of algebraic polyhedra
Dimension theory and nonstable -theory for net groups
Dirichlet motives via modular curves
Divisibility of the Dirac magnetic monopole as a two-vector bundle over the three-sphere.
Dualization in algebraic K-theory and the invariant e¹ of quadratic forms over schemes
In the classical Witt theory over a field F, the study of quadratic forms begins with two simple invariants: the dimension of a form modulo 2, called the dimension index and denoted e⁰: W(F) → ℤ/2, and the discriminant e¹ with values in k₁(F) = F*/F*², which behaves well on the fundamental ideal I(F)= ker(e⁰). Here a more sophisticated situation is considered, of quadratic forms over a scheme and, more generally, over an exact category with duality. Our purposes are: ...