Noncommutative spin geometry

Rennie, Adam Charles.

January 2001

Bibliography: p. 155-161.

Noncommutative algebras

Noncommutative rings

Geometry, Algebraic

K-theory

Noncommutative spin geometry / by Adam Rennie.

Rennie, Adam Charles

January 2001

Bibliography: p. 155-161. / x, 161 p. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Thesis (Ph.D.)--University of Adelaide, Dept. of Pure Mathematics, 2001

Noncommutative algebras.

Noncommutative rings.

Geometry, Algebraic.

K-theory.

Noncommutative spin geometry /

Rennie, Adam Charles.

January 2001

Thesis (Ph.D.)--University of Adelaide, Dept. of Pure Mathematics, 2001. / Bibliography: p. 155-161.

The structure of semisimple Artinian rings

Pandian, Ravi Samuel

01 January 2006

Proves two famous theorems attributed to J.H.M. Wedderburn, which concern the structure of noncommutative rings. The two theorems include, (1) how any semisimple Artinian ring is the direct sum of a finite number of simple rings; and, (2) the Wedderburn-Artin Theorem. Proofs in this paper follow those outlined in I.N. Herstein's monograph Noncommutative Rings with examples and details provided by the author.

Noncommutative rings

Artin rings

Artin rings

Noncommutative rings.

Mathematics

Deformation theory of a birationally commutative surface of Gelfand-Kirillov dimension 4

Campbell, Chris John Montgomery

January 2016

Let K be the field of complex numbers. In this thesis we construct new examples of noncommutative surfaces of GK-dimension 4 using the language of formal and infinitesimal deformations as introduced by Gerstenhaber. Our approach is to find families of deformations of a certain well known GK-dimension 4 birationally commutative surface defined by Zhang and Smith in unpublished work cited in [YZ06], which we call A. Let B* and K* be respectively the bar and Koszul complexes of a PBW algebra C = KhV / (R) . We construct a graph whose vertices are elements of the free algebra KhV i and edges are relations in R. We define a map m2 : B2 ! K2 that extends to a chain map m* : B* → K*. This map allows the Gerstenhaber bracket structure to be transferred from the bar complex to the Koszul complex. In particular, m2 provides a mechanism for algorithmically determining the set of infinitesimal deformations with vanishing primary obstruction. Using the computer algebra package 'Sage' [Dev15] and a Python package developed by the author [Cam], we calculate the degree 2 component of the second Hochschild cohomology of A. Furthermore, using the map m2 we describe the variety U ⊆ HH2/2 (A) of infinitesimal deformations with vanishing primary obstruction. We further show that U decomposes as a union of 3 irreducible subvarieties Vg, Vq and Vu. More generally, let C be a Koszul algebra with relations R, and let E be a localisation of C at some (left and right) Ore set. Since R is homogeneous in degree two, there is an embedding R ,↪ C⊗C and in the following we identify R with its (nonzero) image under this map. We construct an injective linear map ~⋀ : HH²(C) → HH²(E) and prove that if f ∈ HH²(E) satisfies f(R) ⊆ C then f ∈ Im(~⋀). In this way we describe a relationship between infinitesimal deformations of C with those of E. Rogalski and Sierra [RS12] have previously examined a family of deformations of A arising from automorphism of the surface P1 X P1. By applying our understanding of the map ~⋀ we show that these deformations correspond to the variety of infinitesimal deformations Vg. Furthermore, we show that deformations defined similarly by automorphisms of other minimal rational surfaces also correspond to infinitesimal deformations lying in Vg. We introduce a new family of deformations of A, which we call Aq. We show that elements of this family have families of deformations arising from certain quantum analogues of geometric automorphisms of minimal rational surfaces, as defined by Alev and Dumas. Furthermore, we show that after taking the semi-classical limit q → 1 we obtain a family of deformations of A whose infinitesimal deformation lies in Vq. Finally, we apply a heuristic search method in the space of Hochschild 2-cocycles of A. This search yields another new family of deformations of A. We show that elements of this family are non-noetherian PBW noncommutative surfaces with GK-dimension 4. We further show that elements of this family can have as function skew field the division ring of the quantum plane Kq(u; v), the division ring of the first Weyl algebra D1(K) or the commutative field K(u; v).

512

Deformations of Conformal Field Theories to Models with Noncommutative

Harald Grosse, Karl-Georg Schlesinger, grosse@doppler.thp.univie.ac.at

01 September 2000

No description available.

The standard model and beyond in noncommutative geometry /

Schelp, Richard Charles,

January 2000

Thesis (Ph. D.)--University of Texas at Austin, 2000. / Vita. Includes bibliographical references (leaves 113-119). Available also in a digital version from Dissertation Abstracts.

Deformation Theory of Non-Commutative Formal Groups in Positive Characteristic

Leitner, Frederick Carl

January 2005

We discuss the deformation theory of non-commutative formal groups G in positive characteristic. Under a geometric assumption on G, we produce a commutative formal group H whose distribution bialgebra has a certain skewed Poisson structure. This structure gives first order deformation data which integrates to the distribution bialgebra of G.

Formal Groups

Positive Characterisitc

Noncommutative

Graded traces and irreducible representations of Aut(A(Gamma)) acting on graded A(Gamma) and A(Gamma)!

Duffy, Colleen M.

January 2008

Thesis (Ph. D.)--Rutgers University, 2008. / "Graduate Program in Mathematics." Includes bibliographical references (p. 82-83).

Cocycle twists of algebras

Davies, Andrew Phillip

January 2014

No description available.

512

Noncommutative algebra, Cocycle twist