In
gauge theory
In physics, a gauge theory is a type of field theory in which the Lagrangian (and hence the dynamics of the system itself) does not change (is invariant) under local transformations according to certain smooth families of operations (Lie groups) ...
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 topological quantum field theory (or topological field theory or TQFT) is a
quantum field theory
In theoretical physics, quantum field theory (QFT) is a theoretical framework that combines classical field theory, special relativity, and quantum mechanics. QFT is used in particle physics to construct physical models of subatomic particles and ...
which computes
topological invariant
In topology and related areas of mathematics, a topological property or topological invariant is a property of a topological space that is invariant under homeomorphisms. Alternatively, a topological property is a proper class of topological space ...
s.
Although TQFTs were invented by physicists, they are also of mathematical interest, being related to, among other things,
knot theory
In the mathematical field of topology, knot theory is the study of knot (mathematics), mathematical knots. While inspired by knots which appear in daily life, such as those in shoelaces and rope, a mathematical knot differs in that the ends are ...
and the theory of
four-manifold
In mathematics, a 4-manifold is a 4-dimensional topological manifold. A smooth 4-manifold is a 4-manifold with a smooth structure. In dimension four, in marked contrast with lower dimensions, topological and smooth manifolds are quite different. T ...
s in
algebraic topology
Algebraic topology is a branch of mathematics that uses tools from abstract algebra to study topological spaces. The basic goal is to find algebraic invariant (mathematics), invariants that classification theorem, classify topological spaces up t ...
, and to the theory of
moduli spaces
In mathematics, in particular algebraic geometry, a moduli space is a geometric space (usually a scheme (mathematics), scheme or an algebraic stack) whose points represent algebro-geometric objects of some fixed kind, or isomorphism classes of suc ...
in
algebraic geometry
Algebraic geometry is a branch of mathematics, classically studying zeros of multivariate polynomials. Modern algebraic geometry is based on the use of abstract algebraic techniques, mainly from commutative algebra, for solving geometrical ...
.
Donaldson,
Jones
Jones may refer to:
People
*Jones (surname), a common Welsh and English surname
*List of people with surname Jones
* Jones (singer), a British singer-songwriter
Arts and entertainment
* Jones (''Animal Farm''), a human character in George Orwell ...
,
Witten
Witten () is a city with almost 100,000 inhabitants in the Ennepe-Ruhr-Kreis (district) in North Rhine-Westphalia, Germany.
Geography
Witten is situated in the Ruhr valley, in the southern Ruhr area.
Bordering municipalities
* Bochum
* Dortmu ...
, and
Kontsevich have all won
Fields Medal
The Fields Medal is a prize awarded to two, three, or four mathematicians under 40 years of age at the International Congress of the International Mathematical Union (IMU), a meeting that takes place every four years. The name of the award ho ...
s for mathematical work related to topological field theory.
In
condensed matter physics
Condensed matter physics is the field of physics that deals with the macroscopic and microscopic physical properties of matter, especially the solid and liquid phases which arise from electromagnetic forces between atoms. More generally, the sub ...
, topological quantum field theories are the low-energy effective theories of
topologically ordered states, such as
fractional quantum Hall states,
string-net
In condensed matter physics, a string-net is an extended object whose collective behavior has been proposed as a physical mechanism for topological order by Michael A. Levin and Xiao-Gang Wen. A particular string-net model may involve only closed ...
condensed states, and other
strongly correlated quantum liquid states.
Overview
In a topological field theory,
correlation functions do not depend on the
metric
Metric or metrical may refer to:
* Metric system, an internationally adopted decimal system of measurement
* An adjective indicating relation to measurement in general, or a noun describing a specific type of measurement
Mathematics
In mathem ...
of
spacetime
In physics, spacetime is a mathematical model that combines the three dimensions of space and one dimension of time into a single four-dimensional manifold. Spacetime diagrams can be used to visualize relativistic effects, such as why differen ...
. This means that the theory is not sensitive to changes in the shape of spacetime; if spacetime warps or contracts, the correlation functions do not change. Consequently, they are topological invariants.
Topological field theories are not very interesting on flat
Minkowski spacetime
In mathematical physics, Minkowski space (or Minkowski spacetime) () is a combination of three-dimensional Euclidean space and time into a four-dimensional manifold where the spacetime interval between any two events is independent of the inert ...
used in particle physics. Minkowski space can be
contracted to a point, so a TQFT applied to Minkowski space results in trivial topological invariants. Consequently, TQFTs are usually applied to curved spacetimes, such as, for example,
Riemann surfaces
In mathematics, particularly in complex analysis, a Riemann surface is a connected one-dimensional complex manifold. These surfaces were first studied by and are named after Bernhard Riemann. Riemann surfaces can be thought of as deformed versio ...
. Most of the known topological field theories are
defined on spacetimes of dimension less than five. It seems that a few higher-dimensional theories exist, but they are not very well understood .
Quantum gravity is believed to be
background-independent (in some suitable sense), and TQFTs provide examples of background independent quantum field theories. This has prompted ongoing theoretical investigations into this class of models.
(Caveat: It is often said that TQFTs have only finitely many degrees of freedom. This is not a fundamental property. It happens to be true in most of the examples that physicists and mathematicians study, but it is not necessary. A topological
sigma model
In physics, a sigma model is a field theory that describes the field as a point particle confined to move on a fixed manifold. This manifold can be taken to be any Riemannian manifold, although it is most commonly taken to be either a Lie group or ...
targets infinite-dimensional projective space, and if such a thing could be defined it would have
countably infinitely many degrees of freedom.)
Specific models
The known topological field theories fall into two general classes: Schwarz-type TQFTs and Witten-type TQFTs. Witten TQFTs are also sometimes referred to as cohomological field theories. See .
Schwarz-type TQFTs
In Schwarz-type TQFTs, the
correlation function
A correlation function is a function that gives the statistical correlation between random variables, contingent on the spatial or temporal distance between those variables. If one considers the correlation function between random variables rep ...
s or
partition functions of the system are computed by the path integral of metric-independent action functionals. For instance, in the
BF model, the spacetime is a two-dimensional manifold M, the observables are constructed from a two-form F, an auxiliary scalar B, and their derivatives. The action (which determines the path integral) is
:
The spacetime metric does not appear anywhere in the theory, so the theory is explicitly topologically invariant. The first example appeared in 1977 and is due to
A. Schwarz; its action functional is:
:
Another more famous example is
Chern–Simons theory, which can be applied to
knot invariant
In the mathematical field of knot theory, a knot invariant is a quantity (in a broad sense) defined for each knot which is the same for equivalent knots. The equivalence is often given by ambient isotopy but can be given by homeomorphism. Some ...
s. In general, partition functions depend on a metric but the above examples are metric-independent.
Witten-type TQFTs
The first example of Witten-type TQFTs appeared in Witten's paper in 1988 , i.e. topological Yang–Mills theory in four dimensions. Though its action functional contains the spacetime metric ''g''
αβ, after a
topological twist it turns out to be metric independent. The independence of the stress-energy tensor ''T''
αβ of the system from the metric depends on whether the
BRST-operator is closed. Following Witten's example many other examples can be found in
string theory
In physics, string theory is a theoretical framework in which the point-like particles of particle physics are replaced by one-dimensional objects called strings. String theory describes how these strings propagate through space and interac ...
.
Witten-type TQFTs arise if the following conditions are satisfied:
# The action
of the TQFT has a symmetry, i.e. if
denotes a symmetry transformation (e.g. a
Lie derivative
In differential geometry, the Lie derivative ( ), named after Sophus Lie by Władysław Ślebodziński, evaluates the change of a tensor field (including scalar functions, vector fields and one-forms), along the flow defined by another vector fi ...
) then
holds.
# The symmetry transformation is
exact
Exact may refer to:
* Exaction, a concept in real property law
* ''Ex'Act'', 2016 studio album by Exo
* Schooner Exact, the ship which carried the founders of Seattle
Companies
* Exact (company), a Dutch software company
* Exact Change, an Ameri ...
, i.e.
# There are existing
observable
In physics, an observable is a physical quantity that can be measured. Examples include position and momentum. In systems governed by classical mechanics, it is a real-valued "function" on the set of all possible system states. In quantum ph ...
s
which satisfy
for all
.
# The stress-energy-tensor (or similar physical quantities) is of the form
for an arbitrary tensor
.
As an example : Given a 2-form field
with the differential operator
which satisfies
, then the action
has a symmetry if
since
:
.
Further, the following holds (under the condition that
is independent on
and acts similarly to a
functional derivative
In the calculus of variations, a field of mathematical analysis, the functional derivative (or variational derivative) relates a change in a functional (a functional in this sense is a function that acts on functions) to a change in a function on ...
):
:
.
The expression
is proportional to
with another 2-form
.
Now any averages of observables
for the corresponding
Haar measure In mathematical analysis, the Haar measure assigns an "invariant volume" to subsets of locally compact topological groups, consequently defining an integral for functions on those groups.
This measure was introduced by Alfréd Haar in 1933, though ...
are independent on the "geometric" field
and are therefore topological:
:
.
The third equality uses the fact that
and the invariance of the Haar measure under symmetry transformations. Since
is only a number, its Lie derivative vanishes.
Mathematical formulations
The original Atiyah–Segal axioms
Atiyah
Atiyyah ( ar, عطية ''‘aṭiyyah''), which generally implies "something (money or goods given as regarded) received as a gift" or also means "present, gift, benefit, boon, favor, granting, giving"''.''
The name is also spelt Ateah, Atiyeh, ...
suggested a set of axioms for topological quantum field theory, inspired by
Segal
Segal, and its variants including Sagal, Segel, Sigal or Siegel, is a family name which is primarily Ashkenazi Jewish.
The name is said to be derived from Hebrew ''segan leviyyah'' (assistant to the Levites) although a minority of sources cla ...
's proposed axioms for
conformal field theory
A conformal field theory (CFT) is a quantum field theory that is invariant under conformal transformations. In two dimensions, there is an infinite-dimensional algebra of local conformal transformations, and conformal field theories can sometimes ...
(subsequently, Segal's idea was summarized in ), and Witten's geometric meaning of supersymmetry in . Atiyah's axioms are constructed by gluing the boundary with a differentiable (topological or continuous) transformation, while Segal's axioms are for conformal transformations. These axioms have been relatively useful for mathematical treatments of Schwarz-type QFTs, although it isn't clear that they capture the whole structure of Witten-type QFTs. The basic idea is that a TQFT is a
functor
In mathematics, specifically category theory, a functor is a Map (mathematics), mapping between Category (mathematics), categories. Functors were first considered in algebraic topology, where algebraic objects (such as the fundamental group) ar ...
from a certain
category
Category, plural categories, may refer to:
Philosophy and general uses
* Categorization, categories in cognitive science, information science and generally
*Category of being
* ''Categories'' (Aristotle)
*Category (Kant)
*Categories (Peirce)
* ...
of
cobordism
In mathematics, cobordism is a fundamental equivalence relation on the class of compact manifolds of the same dimension, set up using the concept of the boundary (French '' bord'', giving ''cobordism'') of a manifold. Two manifolds of the same dim ...
s to the category of
vector space
In mathematics and physics, a vector space (also called a linear space) is a set whose elements, often called ''vectors'', may be added together and multiplied ("scaled") by numbers called '' scalars''. Scalars are often real numbers, but can ...
s.
There are in fact two different sets of axioms which could reasonably be called the Atiyah axioms. These axioms differ basically in whether or not they apply to a TQFT defined on a single fixed ''n''-dimensional Riemannian / Lorentzian spacetime ''M'' or a TQFT defined on all ''n''-dimensional spacetimes at once.
Let Λ be a
commutative ring
In mathematics, a commutative ring is a ring in which the multiplication operation is commutative. The study of commutative rings is called commutative algebra. Complementarily, noncommutative algebra is the study of ring properties that are not sp ...
with 1 (for almost all real-world purposes we will have Λ = Z, R or C). Atiyah originally proposed the axioms of a topological quantum field theory (TQFT) in dimension ''d'' defined over a ground ring Λ as following:
* A finitely generated Λ-module ''Z''(Σ) associated to each oriented closed smooth d-dimensional manifold Σ (corresponding to the ''
homotopy
In topology, a branch of mathematics, two continuous functions from one topological space to another are called homotopic (from grc, ὁμός "same, similar" and "place") if one can be "continuously deformed" into the other, such a deforma ...
'' axiom),
* An element ''Z''(''M'') ∈ ''Z''(∂''M'') associated to each oriented smooth (''d'' + 1)-dimensional manifold (with boundary) ''M'' (corresponding to an ''additive'' axiom).
These data are subject to the following axioms (4 and 5 were added by Atiyah):
# ''Z'' is ''functorial'' with respect to orientation preserving
diffeomorphisms
In mathematics, a diffeomorphism is an isomorphism of smooth manifolds. It is an invertible function that maps one differentiable manifold to another such that both the function and its inverse are differentiable.
Definition
Given two man ...
of Σ and ''M'',
# ''Z'' is ''involutory'', i.e. ''Z''(Σ*) = ''Z''(Σ)* where Σ* is Σ with opposite orientation and ''Z''(Σ)* denotes the dual module,
# ''Z'' is ''multiplicative''.
# ''Z''(
) = Λ for the d-dimensional empty manifold and ''Z''(
) = 1 for the (''d'' + 1)-dimensional empty manifold.
# ''Z''(''M*'') = (the ''
hermitian {{Short description, none
Numerous things are named after the French mathematician Charles Hermite (1822–1901):
Hermite
* Cubic Hermite spline, a type of third-degree spline
* Gauss–Hermite quadrature, an extension of Gaussian quadrature m ...
'' axiom). If
so that ''Z''(''M'') can be viewed as a linear transformation between hermitian vector spaces, then this is equivalent to ''Z''(''M*'') being the
adjoint
In mathematics, the term ''adjoint'' applies in several situations. Several of these share a similar formalism: if ''A'' is adjoint to ''B'', then there is typically some formula of the type
:(''Ax'', ''y'') = (''x'', ''By'').
Specifically, adjoin ...
of ''Z''(''M'').
Remark. If for a closed manifold ''M'' we view ''Z''(''M'') as a numerical invariant, then for a manifold with a boundary we should think of ''Z''(''M'') ∈ ''Z''(∂''M'') as a "relative" invariant. Let ''f'' : Σ → Σ be an orientation-preserving diffeomorphism, and identify opposite ends of Σ × ''I'' by ''f''. This gives a manifold Σ
''f'' and our axioms imply
:
where Σ(''f'') is the induced automorphism of ''Z''(Σ).
Remark. For a manifold ''M'' with boundary Σ we can always form the double
which is a closed manifold. The fifth axiom shows that
:
where on the right we compute the norm in the hermitian (possibly indefinite) metric.
The relation to physics
Physically (2) + (4) are related to relativistic invariance while (3) + (5) are indicative of the quantum nature of the theory.
Σ is meant to indicate the physical space (usually, ''d'' = 3 for standard physics) and the extra dimension in Σ × ''I'' is "imaginary" time. The space ''Z''(Σ) is the
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 natural ...
of the quantum theory and a physical theory, with a
Hamiltonian
Hamiltonian may refer to:
* Hamiltonian mechanics, a function that represents the total energy of a system
* Hamiltonian (quantum mechanics), an operator corresponding to the total energy of that system
** Dyall Hamiltonian, a modified Hamiltonian ...
''H'', will have a time evolution operator ''e
itH'' or an "imaginary time" operator ''e
−tH''. The main feature of ''topological'' QFTs is that ''H'' = 0, which implies that there is no real dynamics or propagation, along the cylinder Σ × ''I''. However, there can be non-trivial "propagation" (or tunneling amplitudes) from Σ
0 to Σ
1 through an intervening manifold ''M'' with
; this reflects the topology of ''M''.
If ∂''M'' = Σ, then the distinguished vector ''Z''(''M'') in the Hilbert space ''Z''(Σ) is thought of as the ''vacuum state'' defined by ''M''. For a closed manifold ''M'' the number ''Z''(''M'') is the
vacuum expectation value
In quantum field theory the vacuum expectation value (also called condensate or simply VEV) of an operator is its average or expectation value in the vacuum. The vacuum expectation value of an operator O is usually denoted by \langle O\rangle. ...
. In analogy with
statistical mechanics
In physics, statistical mechanics is a mathematical framework that applies statistical methods and probability theory to large assemblies of microscopic entities. It does not assume or postulate any natural laws, but explains the macroscopic be ...
it is also called the
partition function.
The reason why a theory with a zero Hamiltonian can be sensibly formulated resides in the
Feynman path integral approach to QFT. This incorporates relativistic invariance (which applies to general (''d'' + 1)-dimensional "spacetimes") and the theory is formally defined by a suitable
Lagrangian
Lagrangian may refer to:
Mathematics
* Lagrangian function, used to solve constrained minimization problems in optimization theory; see Lagrange multiplier
** Lagrangian relaxation, the method of approximating a difficult constrained problem with ...
—a functional of the classical fields of the theory. A Lagrangian which involves only first derivatives in time formally leads to a zero Hamiltonian, but the Lagrangian itself may have non-trivial features which relate to the topology of ''M''.
Atiyah's examples
In 1988, M. Atiyah published a paper in which he described many new examples of topological quantum field theory that were considered at that time . It contains some new
topological invariant
In topology and related areas of mathematics, a topological property or topological invariant is a property of a topological space that is invariant under homeomorphisms. Alternatively, a topological property is a proper class of topological space ...
s along with some new ideas:
Casson invariant,
Donaldson invariant
In mathematics, and especially gauge theory, Donaldson theory is the study of the topology of smooth 4-manifolds using moduli spaces of anti-self-dual instantons. It was started by Simon Donaldson (1983) who proved Donaldson's theorem restricting ...
,
Gromov's theory,
Floer homology
In mathematics, Floer homology is a tool for studying symplectic geometry and low-dimensional topology. Floer homology is a novel invariant that arises as an infinite-dimensional analogue of finite-dimensional Morse homology. Andreas Floer intro ...
and
Jones–Witten theory.
''d'' = 0
In this case Σ consists of finitely many points. To a single point we associate a vector space ''V'' = ''Z''(point) and to ''n''-points the ''n''-fold tensor product: ''V''
⊗''n'' = ''V'' ⊗ … ⊗ ''V''. The
symmetric group
In abstract algebra, the symmetric group defined over any set is the group whose elements are all the bijections from the set to itself, and whose group operation is the composition of functions. In particular, the finite symmetric group \m ...
''S
n'' acts on ''V''
⊗''n''. A standard way to get the quantum Hilbert space is to start with a classical
symplectic manifold (or
phase space
In dynamical system theory, a phase space is a space in which all possible states of a system are represented, with each possible state corresponding to one unique point in the phase space. For mechanical systems, the phase space usually ...
) and then quantize it. Let us extend ''S
n'' to a compact Lie group ''G'' and consider "integrable" orbits for which the symplectic structure comes from a
line bundle
In mathematics, a line bundle expresses the concept of a line that varies from point to point of a space. For example, a curve in the plane having a tangent line at each point determines a varying line: the ''tangent bundle'' is a way of organisin ...
, then quantization leads to the irreducible representations ''V'' of ''G''. This is the physical interpretation of the
Borel–Weil theorem or the
Borel–Weil–Bott theorem
In mathematics, the Borel–Weil–Bott theorem is a basic result in the representation theory of Lie groups, showing how a family of representations can be obtained from holomorphic sections of certain complex vector bundles, and, more generally, ...
. The Lagrangian of these theories is the classical action (
holonomy
In differential geometry, the holonomy of a connection on a smooth manifold is a general geometrical consequence of the curvature of the connection measuring the extent to which parallel transport around closed loops fails to preserve the geomet ...
of the line bundle). Thus topological QFT's with ''d'' = 0 relate naturally to the classical
representation theory
Representation theory is a branch of mathematics that studies abstract algebraic structures by ''representing'' their elements as linear transformations of vector spaces, and studies modules over these abstract algebraic structures. In essen ...
of
Lie group
In mathematics, a Lie group (pronounced ) is a group that is also a differentiable manifold. A manifold is a space that locally resembles Euclidean space, whereas groups define the abstract concept of a binary operation along with the additio ...
s and the
Symmetry group
In group theory, the symmetry group of a geometric object is the group of all transformations under which the object is invariant, endowed with the group operation of composition. Such a transformation is an invertible mapping of the ambient ...
.
''d'' = 1
We should consider periodic boundary conditions given by closed loops in a compact symplectic manifold ''X''. Along with holonomy such loops as used in the case of ''d'' = 0 as a Lagrangian are then used to modify the Hamiltonian. For a closed surface ''M'' the invariant ''Z''(''M'') of the theory is the number of
pseudo holomorphic maps ''f'' : ''M'' → ''X'' in the sense of Gromov (they are ordinary
holomorphic map
In mathematics, a holomorphic function is a complex-valued function of one or more complex variables that is complex differentiable in a neighbourhood of each point in a domain in complex coordinate space . The existence of a complex derivat ...
s if ''X'' is a
Kähler manifold
In mathematics and especially differential geometry, a Kähler manifold is a manifold with three mutually compatible structures: a complex structure, a Riemannian structure, and a symplectic structure. The concept was first studied by Jan Arnold ...
). If this number becomes infinite i.e. if there are "moduli", then we must fix further data on ''M''. This can be done by picking some points ''P
i'' and then looking at holomorphic maps ''f'' : ''M'' → ''X'' with ''f''(''P
i'') constrained to lie on a fixed hyperplane. has written down the relevant Lagrangian for this theory. Floer has given a rigorous treatment, i.e.
Floer homology
In mathematics, Floer homology is a tool for studying symplectic geometry and low-dimensional topology. Floer homology is a novel invariant that arises as an infinite-dimensional analogue of finite-dimensional Morse homology. Andreas Floer intro ...
, based on Witten's
Morse theory
In mathematics, specifically in differential topology, Morse theory enables one to analyze the topology of a manifold by studying differentiable functions on that manifold. According to the basic insights of Marston Morse, a typical differentiabl ...
ideas; for the case when the boundary conditions are over the interval instead of being periodic, the path initial and end-points lie on two fixed
Lagrangian submanifold
In differential geometry, a subject of mathematics, a symplectic manifold is a smooth manifold, M , equipped with a closed nondegenerate differential 2-form \omega , called the symplectic form. The study of symplectic manifolds is called sy ...
s. This theory has been developed as
Gromov–Witten invariant
In mathematics, specifically in symplectic topology and algebraic geometry, Gromov–Witten (GW) invariants are rational numbers that, in certain situations, count pseudoholomorphic curves meeting prescribed conditions in a given symplectic man ...
theory.
Another example is
Holomorphic
In mathematics, a holomorphic function is a complex-valued function of one or more complex variables that is complex differentiable in a neighbourhood of each point in a domain in complex coordinate space . The existence of a complex derivati ...
Conformal Field Theory
A conformal field theory (CFT) is a quantum field theory that is invariant under conformal transformations. In two dimensions, there is an infinite-dimensional algebra of local conformal transformations, and conformal field theories can sometimes ...
. This might not have been considered strictly topological quantum field theory at the time because Hilbert spaces are infinite dimensional. The conformal field theories are also related to the compact Lie group ''G'' in which the classical phase consists of a central extension of the
loop group
In mathematics, a loop group is a Group (mathematics), group of Loop (topology), loops in a topological group ''G'' with multiplication defined pointwise.
Definition
In its most general form a loop group is a group of continuous mappings from a ...
''(LG)''. Quantizing these produces the Hilbert spaces of the theory of irreducible (projective) representations of ''LG''. The group Diff
+(S
1) now substitutes for the symmetric group and plays an important role. As a result, the partition function in such theories depends on
complex structure, thus it is not purely topological.
''d'' = 2
Jones–Witten theory is the most important theory in this case. Here the classical phase space, associated with a closed surface Σ is the moduli space of a flat ''G''-bundle over Σ. The Lagrangian is an integer multiple of the
Chern–Simons function of a ''G''-connection on a 3-manifold (which has to be "framed"). The integer multiple ''k'', called the level, is a parameter of the theory and ''k'' → ∞ gives the classical limit. This theory can be naturally coupled with the ''d'' = 0 theory to produce a "relative" theory. The details have been described by Witten who shows that the partition function for a (framed) link in the 3-sphere is just the value of the
Jones polynomial
In the mathematical field of knot theory, the Jones polynomial is a knot polynomial discovered by Vaughan Jones in 1984. Specifically, it is an invariant of an oriented knot or link which assigns to each oriented knot or link a Laurent polynom ...
for a suitable root of unity. The theory can be defined over the relevant
cyclotomic field
In number theory, a cyclotomic field is a number field obtained by adjoining a complex root of unity to , the field of rational numbers.
Cyclotomic fields played a crucial role in the development of modern algebra and number theory because of th ...
, see . By considering a
Riemann surface
In mathematics, particularly in complex analysis, a Riemann surface is a connected one-dimensional complex manifold. These surfaces were first studied by and are named after Bernhard Riemann. Riemann surfaces can be thought of as deformed vers ...
with boundary, we can couple it to the ''d'' = 1 conformal theory instead of coupling ''d'' = 2 theory to ''d'' = 0. This has developed into Jones–Witten theory and has led to the discovery of deep connections between
knot theory
In the mathematical field of topology, knot theory is the study of knot (mathematics), mathematical knots. While inspired by knots which appear in daily life, such as those in shoelaces and rope, a mathematical knot differs in that the ends are ...
and quantum field theory.
''d'' = 3
Donaldson has defined the integer invariant of smooth 4-manifolds by using moduli spaces of SU(2)-instantons. These invariants are polynomials on the second homology. Thus 4-manifolds should have extra data consisting of the symmetric algebra of ''H''
2. has produced a super-symmetric Lagrangian which formally reproduces the Donaldson theory. Witten's formula might be understood as an infinite-dimensional analogue of the
Gauss–Bonnet theorem
In the mathematical field of differential geometry, the Gauss–Bonnet theorem (or Gauss–Bonnet formula) is a fundamental formula which links the curvature of a surface to its underlying topology.
In the simplest application, the case of a t ...
. At a later date, this theory was further developed and became the
Seiberg–Witten gauge theory which reduces SU(2) to U(1) in ''N'' = 2, ''d'' = 4 gauge theory. The Hamiltonian version of the theory has been developed by
Floer in terms of the space of connections on a 3-manifold. Floer uses the
Chern–Simons function, which is the Lagrangian of Jones–Witten theory to modify the Hamiltonian. For details, see . has also shown how one can couple the ''d'' = 3 and ''d'' = 1 theories together: this is quite analogous to the coupling between ''d'' = 2 and ''d'' = 0 in Jones–Witten theory.
Now, topological field theory is viewed as a
functor
In mathematics, specifically category theory, a functor is a Map (mathematics), mapping between Category (mathematics), categories. Functors were first considered in algebraic topology, where algebraic objects (such as the fundamental group) ar ...
, not on a fixed dimension but on all dimensions at the same time.
The case of a fixed spacetime
Let ''Bord
M'' be the category whose morphisms are ''n''-dimensional
submanifold
In mathematics, a submanifold of a manifold ''M'' is a subset ''S'' which itself has the structure of a manifold, and for which the inclusion map satisfies certain properties. There are different types of submanifolds depending on exactly which ...
s of ''M'' and whose objects are
connected
Connected may refer to:
Film and television
* ''Connected'' (2008 film), a Hong Kong remake of the American movie ''Cellular''
* '' Connected: An Autoblogography About Love, Death & Technology'', a 2011 documentary film
* ''Connected'' (2015 TV ...
components of the boundaries of such submanifolds. Regard two morphisms as equivalent if they are
homotopic
In topology, a branch of mathematics, two continuous functions from one topological space to another are called homotopic (from grc, ὁμός "same, similar" and "place") if one can be "continuously deformed" into the other, such a deforma ...
via submanifolds of ''M'', and so form the quotient category ''hBord
M'': The objects in ''hBord
M'' are the objects of ''Bord
M'', and the morphisms of ''hBord
M'' are homotopy equivalence classes of morphisms in ''Bord
M''. A TQFT on ''M'' is a
symmetric monoidal functor from ''hBord
M'' to the category of vector spaces.
Note that cobordisms can, if their boundaries match, be sewn together to form a new bordism. This is the composition law for morphisms in the cobordism category. Since functors are required to preserve composition, this says that the linear map corresponding to a sewn together morphism is just the composition of the linear map for each piece.
There is an
equivalence of categories
In category theory, a branch of abstract mathematics, an equivalence of categories is a relation between two categories that establishes that these categories are "essentially the same". There are numerous examples of categorical equivalences fro ...
between the category of 2-dimensional topological quantum field theories and the category of commutative
Frobenius algebra
In mathematics, especially in the fields of representation theory and module theory, a Frobenius algebra is a finite-dimensional unital associative algebra with a special kind of bilinear form which gives the algebras particularly nice duality th ...
s.
All ''n''-dimensional spacetimes at once
To consider all spacetimes at once, it is necessary to replace ''hBord
M'' by a larger category. So let ''Bord
n'' be the category of bordisms, i.e. the category whose morphisms are ''n''-dimensional manifolds with boundary, and whose objects are the connected components of the boundaries of n-dimensional manifolds. (Note that any (''n''−1)-dimensional manifold may appear as an object in ''Bord
n''.) As above, regard two morphisms in ''Bord
n'' as equivalent if they are homotopic, and form the quotient category ''hBord
n''. ''Bord
n'' is a
monoidal category
In mathematics, a monoidal category (or tensor category) is a category \mathbf C equipped with a bifunctor
:\otimes : \mathbf \times \mathbf \to \mathbf
that is associative up to a natural isomorphism, and an object ''I'' that is both a left and r ...
under the operation which maps two bordisms to the bordism made from their disjoint union. A TQFT on ''n''-dimensional manifolds is then a functor from ''hBord
n'' to the category of vector spaces, which maps disjoint unions of bordisms to their tensor product.
For example, for (1 + 1)-dimensional bordisms (2-dimensional bordisms between 1-dimensional manifolds), the map associated with a
pair of pants
Trousers (British English), slacks, or pants are an item of clothing worn from the waist to anywhere between the knees and the ankles, covering both legs separately (rather than with cloth extending across both legs as in robes, skirts, and dr ...
gives a product or coproduct, depending on how the boundary components are grouped – which is commutative or cocommutative, while the map associated with a disk gives a counit (trace) or unit (scalars), depending on the grouping of boundary components, and thus (1+1)-dimension TQFTs correspond to
Frobenius algebra
In mathematics, especially in the fields of representation theory and module theory, a Frobenius algebra is a finite-dimensional unital associative algebra with a special kind of bilinear form which gives the algebras particularly nice duality th ...
s.
Furthermore, we can consider simultaneously 4-dimensional, 3-dimensional and 2-dimensional manifolds related by the above bordisms, and from them we can obtain ample and important examples.
Development at a later time
Looking at the development of topological quantum field theory, we should consider its many applications to
Seiberg–Witten gauge theory,
topological string theory
In theoretical physics, topological string theory is a version of string theory. Topological string theory appeared in papers by theoretical physicists, such as Edward Witten and Cumrun Vafa, by analogy with Witten's earlier idea of topological ...
, the relationship between
knot theory
In the mathematical field of topology, knot theory is the study of knot (mathematics), mathematical knots. While inspired by knots which appear in daily life, such as those in shoelaces and rope, a mathematical knot differs in that the ends are ...
and quantum field theory, and
quantum knot invariants. Furthermore, it has generated topics of great interest in both mathematics and physics. Also of important recent interest are non-local operators in TQFT (). If string theory is viewed as the fundamental, then non-local TQFTs can be viewed as non-physical models that provide a computationally efficient approximation to local string theory.
Witten-type TQFTs and dynamical systems
Stochastic (partial) differential equations (SDEs) are the foundation for models of everything in nature above the scale of quantum degeneracy and coherence and are essentially Witten-type TQFTs. All SDEs possess topological or BRST supersymmetry,
, and in the operator representation of stochastic dynamics is the
exterior derivative
On a differentiable manifold, the exterior derivative extends the concept of the differential of a function to differential forms of higher degree. The exterior derivative was first described in its current form by Élie Cartan in 1899. The res ...
, which is commutative with the stochastic evolution operator. This supersymmetry preserves the continuity of phase space by continuous flows, and the phenomenon of supersymmetric spontaneous breakdown by a global non-supersymmetric ground state encompasses such well-established physical concepts as
chaos
Chaos or CHAOS may refer to:
Arts, entertainment and media Fictional elements
* Chaos (''Kinnikuman'')
* Chaos (''Sailor Moon'')
* Chaos (''Sesame Park'')
* Chaos (''Warhammer'')
* Chaos, in ''Fabula Nova Crystallis Final Fantasy''
* Cha ...
,
turbulence
In fluid dynamics, turbulence or turbulent flow is fluid motion characterized by chaotic changes in pressure and flow velocity. It is in contrast to a laminar flow, which occurs when a fluid flows in parallel layers, with no disruption between ...
,
1/f and
crackling noises,
self-organized criticality
Self-organized criticality (SOC) is a property of dynamical systems that have a critical point as an attractor. Their macroscopic behavior thus displays the spatial or temporal scale-invariance characteristic of the critical point of a phase ...
etc. The topological sector of the theory for any SDE can be recognized as a Witten-type TQFT.
See also
*
Quantum topology
Quantum topology is a branch of mathematics that connects quantum mechanics with low-dimensional topology.
Dirac notation provides a viewpoint of quantum mechanics which becomes amplified into a framework that can embrace the amplitudes associa ...
*
Topological defect
A topological soliton occurs when two adjoining structures or spaces are in some way "out of phase" with each other in ways that make a seamless transition between them impossible. One of the simplest and most commonplace examples of a topological ...
*
Topological entropy in physics
The topological entanglement entropy or ''topological entropy'', usually denoted by \gamma, is a number characterizing many-body states that possess topological order.
A non-zero topological entanglement entropy reflects the presence of long ran ...
*
Topological order
In physics, topological order is a kind of order in the zero-temperature phase of matter (also known as quantum matter). Macroscopically, topological order is defined and described by robust ground state degeneracy and quantized non-Abelian ...
*
Topological quantum number
In physics, a topological quantum number (also called topological charge) is any quantity, in a physical theory, that takes on only one of a discrete set of values, due to topological considerations. Most commonly, topological quantum numbers are ...
*
Topological quantum computer
A topological quantum computer is a theoretical quantum computer proposed by Russian-American physicist Alexei Kitaev in 1997. It employs quasiparticles in two-dimensional systems, called anyons, whose world lines pass around one another to for ...
*
Topological string theory
In theoretical physics, topological string theory is a version of string theory. Topological string theory appeared in papers by theoretical physicists, such as Edward Witten and Cumrun Vafa, by analogy with Witten's earlier idea of topological ...
*
Arithmetic topology Arithmetic topology is an area of mathematics that is a combination of algebraic number theory and topology. It establishes an analogy between number fields and closed, orientable 3-manifolds.
Analogies
The following are some of the analogies used ...
*
Cobordism hypothesis
In mathematics, the cobordism hypothesis, due to John C. Baez and James Dolan, concerns the classification of extended topological quantum field theories (TQFTs). In 2008, Jacob Lurie outlined a proof of the cobordism hypothesis, though the detail ...
References
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