Primary Field
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In
theoretical physics Theoretical physics is a branch of physics that employs mathematical models and abstractions of physical objects and systems to rationalize, explain and predict natural phenomena. This is in contrast to experimental physics, which uses experim ...
, a primary field, also called a primary operator, or simply a primary, is a local operator in a
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 ...
which is annihilated by the part of the
conformal algebra In mathematical physics, the conformal symmetry of spacetime is expressed by an extension of the Poincaré group. The extension includes special conformal transformations and dilations. In three spatial plus one time dimensions, conformal symmetry ...
consisting of the lowering generators. From the
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 ...
point of view, a primary is the lowest dimension operator in a given representation of the
conformal algebra In mathematical physics, the conformal symmetry of spacetime is expressed by an extension of the Poincaré group. The extension includes special conformal transformations and dilations. In three spatial plus one time dimensions, conformal symmetry ...
. All other operators in a representation are called ''descendants''; they can be obtained by acting on the primary with the raising generators.


History of the concept

Primary fields in a ''D''-dimensional conformal field theory were introduced in 1969 by Mack and Salam where they were called ''interpolating fields''. They were then studied by Ferrara, Gatto, and Grillo who called them ''irreducible conformal tensors'', and by Mack who called them ''lowest weights''. Polyakov used an equivalent definition as fields which cannot be represented as derivatives of other fields. The modern terms ''primary fields'' and ''descendants'' were introduced by Belavin, Polyakov and Zamolodchikov in the context of
two-dimensional conformal field theory A two-dimensional conformal field theory is a quantum field theory on a Euclidean two-dimensional space, that is invariant under local conformal transformations. In contrast to other types of conformal field theories, two-dimensional conformal fi ...
. This terminology is now used both for ''D''=2 and ''D''>2.


Conformal field theory in ''D''>2 spacetime dimensions

In d>2 dimensions conformal primary fields can be defined in two equivalent ways. Campos Delgado provided a pedagogical proof of the equivalence.


First definition

Let \hat be the generator of dilations and let \hat_ be the generator of special conformal transformations. A conformal primary field \hat^M_(x) , in the \rho representation of the
Lorentz group In physics and mathematics, the Lorentz group is the group of all Lorentz transformations of Minkowski spacetime, the classical and quantum setting for all (non-gravitational) physical phenomena. The Lorentz group is named for the Dutch physicis ...
and with conformal dimension \Delta satisfies the following conditions at x=0 : #\left hat,\hat^M_(0)\right-i\Delta\hat^M_(0); #\left hat_,\hat^M_(0)\right0.


Second definition

A conformal primary field \hat^M_(x), in the \rho representation of the
Lorentz group In physics and mathematics, the Lorentz group is the group of all Lorentz transformations of Minkowski spacetime, the classical and quantum setting for all (non-gravitational) physical phenomena. The Lorentz group is named for the Dutch physicis ...
and with conformal dimension \Delta, transforms under a conformal transformation \eta_\mapsto \Omega^2(x)\eta_ as :\hat^M_(x')=\Omega^(x)\mathcal_\hat^N_(x) where _(x)=\Omega^(x)\frac and \mathcal_ implements the action of R in the SO(d-1,1) representation of \hat^_(x).


Conformal field theory in ''D''2 dimensions

In two dimensions, conformal field theories are invariant under an infinite dimensional
Virasoro algebra In mathematics, the Virasoro algebra (named after the physicist Miguel Ángel Virasoro) is a complex Lie algebra and the unique central extension of the Witt algebra. It is widely used in two-dimensional conformal field theory and in string the ...
with generators L_n, \bar_n, -\infty. Primaries are defined as the operators annihilated by all L_n, \bar_n with ''n''>0, which are the lowering generators. Descendants are obtained from the primaries by acting with L_n, \bar_n with ''n''<0. The Virasoro algebra has a finite dimensional subalgebra generated by L_n, \bar_n, -1\le n\le 1. Operators annihilated by L_1, \bar_1 are called quasi-primaries. Each primary field is a quasi-primary, but the converse is not true; in fact each primary has infinitely many quasi-primary descendants. Quasi-primary fields in two-dimensional conformal field theory are the direct analogues of the primary fields in the ''D''>2 dimensional case.


Superconformal field theory

In D\le 6 dimensions, conformal algebra allows graded extensions containing fermionic generators. Quantum field theories invariant with respect to such extended algebras are called superconformal. In superconformal field theories, one considers superconformal primary operators. In D>2 dimensions, superconformal primaries are annihilated by K_\mu and by the fermionic generators S (one for each supersymmetry generator). Generally, each superconformal primary representations will include several primaries of the conformal algebra, which arise by acting with the supercharges Q on the superconformal primary. There exist also special ''chiral'' superconformal primary operators, which are primary operators annihilated by some combination of the supercharges. In D=2 dimensions, superconformal field theories are invariant under
super Virasoro algebra In mathematical physics, a super Virasoro algebra is an extension of the Virasoro algebra (named after Miguel Ángel Virasoro) to a Lie superalgebra. There are two extensions with particular importance in superstring theory: the Ramond algebra (n ...
s, which include infinitely many fermionic operators. Superconformal primaries are annihilated by all lowering operators, bosonic and fermionic.


Unitarity bounds

In unitary (super)conformal field theories, dimensions of primary operators satisfy lower bounds called the unitarity bounds. Roughly, these bounds say that the dimension of an operator must be not smaller than the dimension of a similar operator in free field theory. In four-dimensional conformal field theory, the unitarity bounds were first derived by Ferrara, Gatto and Grillo and by Mack.


References

{{DEFAULTSORT:Primary Field Conformal field theory