PlanetPhysics/Non Abelian Algebraic Topology 5

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Non--Abelian algebraic topology[edit | edit source]

A relatively recent development in Algebraic Topology that began in 1960s which considers algebraic structures in dimensions greater than 1 which develop the non-Abelian character of the fundamental group of a topological space, or a novel approach to higher dimensional, non-Abelian algebraic treatments of topological invariants in Algebraic Topology.

Recent reference:[edit | edit source]

Ronald Brown, Bangor University, UK, Philip J. Higgins, Durham University, UK Rafael Sivera, University of Valencia, Spain.2010. Nonabelian Algebraic Topology: Filtered Spaces, \htmladdnormallink{crossed complexes {http://planetphysics.us/encyclopedia/SingularComplexOfASpace.html}, Cubical Homotopy groupoids.} EMS Tracts in Mathematics, Vol.15, an EMS publication: September 2010, approx. 670 pages. ISBN 978-3-03719-083-8.

Notes[edit | edit source]

1.A central topic of the book is a Higher Homotopy van Kampen Theorem;

2.The book presents ``the use of filtered spaces rather than just topological spaces allows the development of basic algebraic topology in terms of higher homotopy groupoids; these algebraic structures better reflect the geometry of subdivision and composition than those commonly in use. Exploration of these uses of higher dimensional versions of groupoids has been largely the work of the first two authors since the mid 1960s...(it provides) a full account of a theory which, without using singular homology theory or simplicial approximation, but employing filtered spaces and methods analogous to those used originally for the fundamental group or groupoid, obtains for example:

--the Brouwer degree theorem;

--the Relative Hurewicz theorem, seen as a special case of a homotopical excision theorem giving information on relative homotopy groups as a module over the fundamental group;

--non-Abelian information on second relative homotopy groups of mapping cones, and of unions;

--homotopy information on the space of pointed maps when X is a CW-complex of dimension n and Y is connected and has no homotopy between 1 and n; this result again involves the fundamental groups."

3. See also Nonabelian Algebraic Topology vol.1.2007-2008.free downloads and Nonabelian Algebraic Topology textbook in 2010