Higher groupoid bundles, higher spaces, and self-dual tensor field equations

We develop a description of higher gauge theory with higher groupoids as gauge structure from first principles. This approach captures ordinary gauge theories and gauged sigma models as well as their categorifications on a very general class of (higher) spaces comprising presentable differentiable s...

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Veröffentlicht in:	Fortschritte der Physik 2016-08, Vol.64 (8-9), p.674-717
Hauptverfasser:	Jurčo, Branislav, Sämann, Christian, Wolf, Martin
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Sprache:	eng
Schlagworte:	Physics
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creator	Jurčo, Branislav Sämann, Christian Wolf, Martin
description	We develop a description of higher gauge theory with higher groupoids as gauge structure from first principles. This approach captures ordinary gauge theories and gauged sigma models as well as their categorifications on a very general class of (higher) spaces comprising presentable differentiable stacks, as e.g. orbifolds. We start off with a self‐contained review on simplicial sets as models of (∞, 1)‐categories. We then discuss principal bundles in terms of simplicial maps and their homotopies. We explain in detail a differentiation procedure, suggested by Ševera, that maps higher groupoids to L∞‐algebroids. Generalising this procedure, we define connections for higher groupoid bundles. As an application, we obtain six‐dimensional superconformal field theories via a Penrose–Ward transform of higher groupoid bundles over a twistor space. This construction reduces the search for non‐Abelian self‐dual tensor field equations in six dimensions to a search for the appropriate (higher) gauge structure. The treatment aims to be accessible to theoretical physicists. The authors develop a description of higher gauge theory with higher groupoids as gauge structure from first principles. This approach captures ordinary gauge theories and gauged sigma models as well as their categorifications on a very general class of (higher) spaces comprising presentable differentiable stacks, as e.g. orbifolds. The article starts off with a self‐contained review on simplicial sets as models of (∞,1) ‐categories. After discussing principal bundles in terms of simplicial maps and their homotopies, a differentiation procedure mapping higher groupoids to L∞‐algebroids is explained in detail. Generalising this procedure, connections for higher groupoid bundles are defined. As an application, one obtains six‐dimensional superconformal field theories via a Penrose ‐Ward transform of higher groupoid bundles over a twistor space. This construction reduces the search for non‐Abelian self‐dual tensor field equations in six dimensions to a search for the appropriate (higher) gauge structure. The treatment aims to be accessible to theoretical physicists.
doi_str_mv	10.1002/prop.201600031
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This approach captures ordinary gauge theories and gauged sigma models as well as their categorifications on a very general class of (higher) spaces comprising presentable differentiable stacks, as e.g. orbifolds. We start off with a self‐contained review on simplicial sets as models of (∞, 1)‐categories. We then discuss principal bundles in terms of simplicial maps and their homotopies. We explain in detail a differentiation procedure, suggested by Ševera, that maps higher groupoids to L∞‐algebroids. Generalising this procedure, we define connections for higher groupoid bundles. As an application, we obtain six‐dimensional superconformal field theories via a Penrose–Ward transform of higher groupoid bundles over a twistor space. This construction reduces the search for non‐Abelian self‐dual tensor field equations in six dimensions to a search for the appropriate (higher) gauge structure. The treatment aims to be accessible to theoretical physicists. The authors develop a description of higher gauge theory with higher groupoids as gauge structure from first principles. This approach captures ordinary gauge theories and gauged sigma models as well as their categorifications on a very general class of (higher) spaces comprising presentable differentiable stacks, as e.g. orbifolds. The article starts off with a self‐contained review on simplicial sets as models of (∞,1) ‐categories. After discussing principal bundles in terms of simplicial maps and their homotopies, a differentiation procedure mapping higher groupoids to L∞‐algebroids is explained in detail. Generalising this procedure, connections for higher groupoid bundles are defined. As an application, one obtains six‐dimensional superconformal field theories via a Penrose ‐Ward transform of higher groupoid bundles over a twistor space. 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Phys</addtitle><description>We develop a description of higher gauge theory with higher groupoids as gauge structure from first principles. This approach captures ordinary gauge theories and gauged sigma models as well as their categorifications on a very general class of (higher) spaces comprising presentable differentiable stacks, as e.g. orbifolds. We start off with a self‐contained review on simplicial sets as models of (∞, 1)‐categories. We then discuss principal bundles in terms of simplicial maps and their homotopies. We explain in detail a differentiation procedure, suggested by Ševera, that maps higher groupoids to L∞‐algebroids. Generalising this procedure, we define connections for higher groupoid bundles. As an application, we obtain six‐dimensional superconformal field theories via a Penrose–Ward transform of higher groupoid bundles over a twistor space. This construction reduces the search for non‐Abelian self‐dual tensor field equations in six dimensions to a search for the appropriate (higher) gauge structure. The treatment aims to be accessible to theoretical physicists. The authors develop a description of higher gauge theory with higher groupoids as gauge structure from first principles. This approach captures ordinary gauge theories and gauged sigma models as well as their categorifications on a very general class of (higher) spaces comprising presentable differentiable stacks, as e.g. orbifolds. The article starts off with a self‐contained review on simplicial sets as models of (∞,1) ‐categories. After discussing principal bundles in terms of simplicial maps and their homotopies, a differentiation procedure mapping higher groupoids to L∞‐algebroids is explained in detail. Generalising this procedure, connections for higher groupoid bundles are defined. As an application, one obtains six‐dimensional superconformal field theories via a Penrose ‐Ward transform of higher groupoid bundles over a twistor space. This construction reduces the search for non‐Abelian self‐dual tensor field equations in six dimensions to a search for the appropriate (higher) gauge structure. The treatment aims to be accessible to theoretical physicists.</description><subject>Physics</subject><issn>0015-8208</issn><issn>1521-3978</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><recordid>eNqFkM1LwzAYh4MoOKdXzwWvtr5J2iY96nCbWNwQRfAS0iTdOmvbJS26_96OyvDmKbzked6PH0KXGAIMQG4aWzcBARwDAMVHaIQjgn2aMH6MRgA48jkBforOnNv0CMEJHqF0XqzWxnorW3dNXWgv6ypdGnftrYcP10i1L2WlPWfK3NedLL3WVK62Xl6YUntm28m2qCt3jk5yWTpz8fuO0ev0_mUy99PF7GFym_oqJBj7_YZaMqKyJOM5lQRIbiiJE8h4JGnITaYiRRKtVGQ4zTMZhQy0NiSTUnIGdIyuhr79ydvOuFZs6s5W_UiBOQ5jzmKIeyoYKGVr56zJRWOLT2l3AoPYJyb2iYlDYr2QDMJXUZrdP7RYPi-Wf11_cAvXmu-DK-2HiBllkXh7molHdjdNWfguJvQHM4x_RQ</recordid><startdate>201608</startdate><enddate>201608</enddate><creator>Jurčo, Branislav</creator><creator>Sämann, Christian</creator><creator>Wolf, Martin</creator><general>Blackwell Publishing Ltd</general><general>Wiley Subscription Services, Inc</general><scope>BSCLL</scope><scope>AAYXX</scope><scope>CITATION</scope></search><sort><creationdate>201608</creationdate><title>Higher groupoid bundles, higher spaces, and self-dual tensor field equations</title><author>Jurčo, Branislav ; Sämann, Christian ; Wolf, Martin</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c4211-160da72cb9b8f3a202fe32690b85a348ebc5c29dcc5e83fba5470dde2baaa8703</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2016</creationdate><topic>Physics</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Jurčo, Branislav</creatorcontrib><creatorcontrib>Sämann, Christian</creatorcontrib><creatorcontrib>Wolf, Martin</creatorcontrib><collection>Istex</collection><collection>CrossRef</collection><jtitle>Fortschritte der Physik</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Jurčo, Branislav</au><au>Sämann, Christian</au><au>Wolf, Martin</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Higher groupoid bundles, higher spaces, and self-dual tensor field equations</atitle><jtitle>Fortschritte der Physik</jtitle><addtitle>Fortschr. Phys</addtitle><date>2016-08</date><risdate>2016</risdate><volume>64</volume><issue>8-9</issue><spage>674</spage><epage>717</epage><pages>674-717</pages><issn>0015-8208</issn><eissn>1521-3978</eissn><abstract>We develop a description of higher gauge theory with higher groupoids as gauge structure from first principles. This approach captures ordinary gauge theories and gauged sigma models as well as their categorifications on a very general class of (higher) spaces comprising presentable differentiable stacks, as e.g. orbifolds. We start off with a self‐contained review on simplicial sets as models of (∞, 1)‐categories. We then discuss principal bundles in terms of simplicial maps and their homotopies. We explain in detail a differentiation procedure, suggested by Ševera, that maps higher groupoids to L∞‐algebroids. Generalising this procedure, we define connections for higher groupoid bundles. As an application, we obtain six‐dimensional superconformal field theories via a Penrose–Ward transform of higher groupoid bundles over a twistor space. This construction reduces the search for non‐Abelian self‐dual tensor field equations in six dimensions to a search for the appropriate (higher) gauge structure. The treatment aims to be accessible to theoretical physicists. The authors develop a description of higher gauge theory with higher groupoids as gauge structure from first principles. This approach captures ordinary gauge theories and gauged sigma models as well as their categorifications on a very general class of (higher) spaces comprising presentable differentiable stacks, as e.g. orbifolds. The article starts off with a self‐contained review on simplicial sets as models of (∞,1) ‐categories. After discussing principal bundles in terms of simplicial maps and their homotopies, a differentiation procedure mapping higher groupoids to L∞‐algebroids is explained in detail. Generalising this procedure, connections for higher groupoid bundles are defined. As an application, one obtains six‐dimensional superconformal field theories via a Penrose ‐Ward transform of higher groupoid bundles over a twistor space. This construction reduces the search for non‐Abelian self‐dual tensor field equations in six dimensions to a search for the appropriate (higher) gauge structure. The treatment aims to be accessible to theoretical physicists.</abstract><cop>Weinheim</cop><pub>Blackwell Publishing Ltd</pub><doi>10.1002/prop.201600031</doi><tpages>44</tpages></addata></record>
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title	Higher groupoid bundles, higher spaces, and self-dual tensor field equations
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