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Revision as of 06:51, 12 March 2024 edit Samuel Adrian Antz (talk \| contribs) Extended confirmed users 3,289 edits Added reference for the cohomology ring of BU(n). Also added details, for example the coefficients being in the ring of integers. Tag: Visual edit ← Previous edit		Latest revision as of 04:20, 21 August 2025 edit undo Samuel Adrian Antz (talk \| contribs) Extended confirmed users 3,289 edits Added principal U(1)-bundles. Tag: Visual edit
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Line 1: {{Short description\|Exact homotopy case}} {{DISPLAYTITLE:Classifying space for U(''n'')}} In [[mathematics]], the '''[[classifying space]] for the [[unitary group]]''' U(''n'') is a space BU(''n'') together with a universal bundle EU(''n'') such that any hermitian bundle on a [[paracompact space]] ''X'' is the pull-back of EU(''n'') by a map ''X'' → BU(''n'') unique up to homotopy. A particular application are [[Principal U(1)-bundle\|principal U(1)-bundles]]. This space with its universal fibration may be constructed as either Line 81: =\mathbb{Z}[c_1,\ldots,c_n].</math> '''Proof:''' Let us first consider the case ''n'' = 1. In this case, U(1) is the circle '''S'''<sup>1</sup> and the universal bundle is '''S'''<sup>∞</sup> → '''CP'''<sup>∞</sup>. It is well known<ref>R. Bott, L. W. Tu-- ''Differential Forms in Algebraic Topology'', Graduate Texts in Mathematics 82, Springer</ref> that the cohomology of '''CP'''<sup>''k''</sup> is isomorphic to <math>\~~mathbf~~mathbb{RZ}\lbrack c_1\rbrack/c_1^{k+1}</math>, where ''c''<sub>1</sub> is the [[Euler class]] of the U(1)-bundle '''S'''<sup>2''k''+1</sup> → '''CP'''<sup>''k''</sup>, and that the injections '''CP'''<sup>''k''</sup> → '''CP'''<sup>''k''+1</sup>, for ''k'' ∈ '''N''', are compatible with these presentations of the cohomology of the projective spaces. This proves the Proposition for ''n'' = 1. There are homotopy fiber sequences Line 124: is the [[multinomial coefficient]] and <math>k_1,\dots,k_n</math> contains ''r'' distinct integers, repeated <math>n_1,\dots,n_r</math> times, respectively. == Infinite classifying space == The canonical inclusions <math>\operatorname{U}(n)\hookrightarrow\operatorname{U}(n+1)</math> induce canonical inclusions <math>\operatorname{BU}(n)\hookrightarrow\operatorname{BU}(n+1)</math> on their respective classifying spaces. Their respective colimits are denoted as: : <math>\operatorname{U} :=\lim_{n\rightarrow\infty}\operatorname{U}(n);</math> : <math>\operatorname{BU} :=\lim_{n\rightarrow\infty}\operatorname{BU}(n).</math> <math>\operatorname{BU}</math> is indeed the classifying space of <math>\operatorname{U}</math>. ==See also== [[Classifying space for O(n)\|Classifying space for O(''n'')]] * [[Classifying space for SO(n)]] * [[Classifying space for SU(n)]] * [[Topological K-theory]] * [[Atiyah–Jänich theorem]] Line 169 ⟶ 181: }} {{cite book\|last=Hatcher\|first=Allen\|title=Algebraic topology\|publisher=[[Cambridge University Press]]\|___location=Cambridge\|year=2002\|language=en\|isbn=0-521-79160-X\|url=https://pi.math.cornell.edu/~hatcher/AT/ATpage.html}} {{cite book\|title=Universal principal bundles and classifying spaces\|publisher=\|___location=\|isbn=\|url=https://math.mit.edu/~mbehrens/18.906/prin.pdf\|doi=\|last=Mitchell\|first=Stephen\|year=August 2001}} == External links ==