noncommutative geometry Noncommutative geometry (NCG) is a branch of mathematics concerned with a geometric approach to noncommutative algebras, and with the construction of ''spaces'' that are locally presented by noncommutative algebras of functions (possibly in some g ...

and related branches of mathematics and

mathematical physics Mathematical physics refers to the development of mathematics, mathematical methods for application to problems in physics. The ''Journal of Mathematical Physics'' defines the field as "the application of mathematics to problems in physics and t ...

, a spectral triple is a set of data which encodes a geometric phenomenon in an analytic way. The definition typically involves a

Hilbert space In mathematics, Hilbert spaces (named after David Hilbert) allow generalizing the methods of linear algebra and calculus from (finite-dimensional) Euclidean vector spaces to spaces that may be infinite-dimensional. Hilbert spaces arise natu ...

, an

algebra Algebra () is one of the areas of mathematics, broad areas of mathematics. Roughly speaking, algebra is the study of mathematical symbols and the rules for manipulating these symbols in formulas; it is a unifying thread of almost all of mathem ...

of operators on it and an unbounded

self-adjoint In mathematics, and more specifically in abstract algebra, an element ''x'' of a *-algebra is self-adjoint if x^*=x. A self-adjoint element is also Hermitian, though the reverse doesn't necessarily hold. A collection ''C'' of elements of a sta ...

operator, endowed with supplemental structures. It was conceived by

Alain Connes Alain Connes (; born 1 April 1947) is a French mathematician, and a theoretical physicist, known for his contributions to the study of operator algebras and noncommutative geometry. He is a professor at the , , Ohio State University and Vande ...

who was motivated by the Atiyah-Singer index theorem and sought its extension to 'noncommutative' spaces. Some authors refer to this notion as unbounded K-cycles or as unbounded

Fredholm module In noncommutative geometry, a Fredholm module is a mathematical structure used to quantize the differential calculus. Such a module is, up to trivial changes, the same as the abstract elliptic operator introduced by . Definition If ''A'' is an in ...

Motivation

A motivating example of spectral triple is given by the algebra of smooth functions on a compact spin manifold, acting on the Hilbert space of L²-

spinor In geometry and physics, spinors are elements of a complex vector space that can be associated with Euclidean space. Like geometric vectors and more general tensors, spinors transform linearly when the Euclidean space is subjected to a sligh ...

s, accompanied by the Dirac operator associated to the spin structure. From the knowledge of these objects one is able to recover the original manifold as a metric space: the manifold as a topological space is recovered as the spectrum of the algebra, while the (absolute value of)

Dirac operator In mathematics and quantum mechanics, a Dirac operator is a differential operator that is a formal square root, or half-iterate, of a second-order operator such as a Laplacian. The original case which concerned Paul Dirac was to factorise formally ...

retains the metric.A. Connes, Noncommutative Geometry, Academic Press, 1994 On the other hand, the phase part of the Dirac operator, in conjunction with the algebra of functions, gives a K-cycle which encodes index-theoretic information. The local index formulaA. Connes, H. Moscovici; The Local Index Formula in Noncommutative Geometry expresses the pairing of the K-group of the manifold with this K-cycle in two ways: the 'analytic/global' side involves the usual trace on the Hilbert space and commutators of functions with the phase operator (which corresponds to the 'index' part of the index theorem), while the 'geometric/local' side involves the

Dixmier trace In mathematics, the Dixmier trace, introduced by , is a non-normal trace on a space of linear operators on a Hilbert space larger than the space of trace class operators. Dixmier traces are examples of singular traces. Some applications of Dixm ...

and commutators with the Dirac operator (which corresponds to the 'characteristic class integration' part of the index theorem). Extensions of the index theorem can be considered in cases, typically when one has an action of a group on the manifold, or when the manifold is endowed with a

foliation In mathematics ( differential geometry), a foliation is an equivalence relation on an ''n''-manifold, the equivalence classes being connected, injectively immersed submanifolds, all of the same dimension ''p'', modeled on the decomposition ...

structure, among others. In those cases the algebraic system of the 'functions' which expresses the underlying geometric object is no longer commutative, but one may able to find the space of square integrable spinors (or, sections of a Clifford module) on which the algebra acts, and the corresponding 'Dirac' operator on it satisfying certain boundedness of commutators implied by the pseudo-differential calculus.

Definition

An odd spectral triple is a triple (A, H, D) consisting of a Hilbert space H, an algebra A of operators on H (usually closed under taking adjoints) and a densely defined self adjoint operator D satisfying ‖

, D The comma is a punctuation mark that appears in several variants in different languages. It has the same shape as an apostrophe or single closing quotation mark () in many typefaces, but it differs from them in being placed on the baseline ...

�� < ∞ for any a ∈ A. An even spectral triple is an odd spectral triple with a Z/2Z-grading on H, such that the elements in A are even while D is odd with respect to this grading. One could also say that an even spectral triple is given by a quartet (A, H, D, γ) such that γ is a self adjoint unitary on H satisfying a γ = γ a for any a in A and D γ = - γ D. A finitely summable spectral triple is a spectral triple (A, H, D) such that a.D for any a in A has a compact resolvent which belongs to the class of L^p+-operators for a fixed p (when A contains the identity operator on H, it is enough to require D⁻¹ in L^p+(H)). When this condition is satisfied, the triple (A, H, D) is said to be p-summable. A spectral triple is said to be θ-summable when e^−tD² is of trace class for any t > 0. Let δ(T) denote the commutator of , D, with an operator T on H. A spectral triple is said to be regular when the elements in A and the operators of the form

/nowiki> for a in A are in the domain of the iterates δⁿ of δ. When a spectral triple (A, H, D) is p-summable, one may define its zeta function ζ_D(s) = Tr(, D, ^−s); more generally there are zeta functions ζ_b(s) = Tr(b, D, ^−s) for each element b in the algebra B generated by δⁿ(A) and δⁿ(

/nowiki>) for positive integers n. They are related to the

heat kernel In the mathematical study of heat conduction and diffusion, a heat kernel is the fundamental solution to the heat equation on a specified domain with appropriate boundary conditions. It is also one of the main tools in the study of the spectr ...

exp(-t, D, ) by a

Mellin transform In mathematics, the Mellin transform is an integral transform that may be regarded as the multiplicative version of the two-sided Laplace transform. This integral transform is closely connected to the theory of Dirichlet series, and is often use ...

. The collection of the poles of the analytic continuation of ζ_b for b in B is called the dimension spectrum of (A, H, D). A real spectral triple is a spectral triple (A, H, D) accompanied with an anti-linear involution J on H, satisfying , JbJ= 0 for a, b in A. In the even case it is usually assumed that J is even with respect to the grading on H.

Important concepts

Given a spectral triple (A, H, D), one can apply several important operations to it. The most fundamental one is the

polar decomposition In mathematics, the polar decomposition of a square real or complex matrix A is a factorization of the form A = U P, where U is an orthogonal matrix and P is a positive semi-definite symmetric matrix (U is a unitary matrix and P is a positive ...

D = F, D, of D into a self adjoint unitary operator F (the 'phase' of D) and a densely defined positive operator , D, (the 'metric' part).

Metric on the pure state space

The positive , D, operator defines a metric on the set of pure states on the norm closure of A.

Pairing with K-theory

The self adjoint unitary ''F'' gives a map of the K-theory of ''A'' into integers by taking Fredholm index as follows. In the even case, each projection ''e'' in ''A'' decomposes as ''e''₀ ⊕ ''e''₁ under the grading and ''e''₁''Fe''₀ becomes a Fredholm operator from ''e''₀''H'' to ''e''₁''H''. Thus ''e'' → Ind ''e''₁''Fe''₀ defines an additive mapping of ''K''₀(''A'') to Z. In the odd case the eigenspace decomposition of ''F'' gives a grading on ''H'', and each invertible element in ''A'' gives a Fredholm operator (''F'' + 1) u (''F'' − 1)/4 from (''F'' − 1)''H'' to (''F'' + 1)''H''. Thus ''u'' → Ind (''F'' + 1) u (''F'' − 1)/4 gives an additive mapping from ''K''₁(''A'') to Z. When the spectral triple is finitely summable, one may write the above indexes using the (super) trace, and a product of ''F'', ''e'' (resp. ''u'') and commutator of ''F'' with ''e'' (resp. ''u''). This can be encoded as a (''p'' + 1)-functional on ''A'' satisfying some algebraic conditions and give Hochschild / cyclic cohomology cocycles, which describe the above maps from K-theory to the integers.

Notes

References

* * * * * {{cite book , title=Arithmetic Noncommutative Geometry , first=Matilde , last=Marcolli , authorlink=Matilde Marcolli , series=University Lecture Series , volume=36 , publisher=American Mathematical Society , isbn=978-0-8218-3833-4 , year=2005 , others=With a foreword by Yuri Manin , zbl=1081.58005 , location=Providence, RI Noncommutative geometry