Spin network

Spin network

In physics, a spin network is a type of diagram which can be used to represent states and interactions between particles and fields in quantum physics. From a mathematical perspective, the diagrams are a concise way to represent multilinear functions and functions between representations of matrix groups. The diagrammatic notation often simplifies calculation because simple diagrams may be used to represent complicated functions. Roger Penrose is credited with the invention of spin networks in 1971, although similar diagrammatic techniques existed before that time.

Spin networks have been applied to the theory of quantum gravity by Carlo Rovelli, Lee Smolin, Fotini Markopoulou-Kalamara, and others. They can also be used to construct a particular functional on the space of connections which is invariant under local gauge transformations.

Definition

Penrose's original definition

A spin network, as described in Penrose 1971, is a kind of diagram in which each line segment represents the world line of a "unit" (either an elementary particle or a compound system of particles). Three line segments join at each vertex. A vertex may be interpreted as an event in which either a single unit splits into two or two units collide and join into a single unit. Diagrams whose line segments are all joined at vertices are called "closed spin networks". Time may be viewed as going in one direction, such as from the bottom to the top of the diagram, but for closed spin networks the direction of time is irrelevant to calculations.

Each line segment is labeled with an integer called a spin number. A unit with spin number "n" is called an "n"-unit and has angular momentum nhbar/2, where hbar is the reduced Planck constant. For bosons, such as photons and gluons, "n" is an even number. For fermions, such as electrons and quarks, "n" is odd.

Given any closed spin network, a non-negative integer can be calculated which is called the "norm" of the spin network. Norms can be used to calculate the probabilities of various spin values. A network whose norm is zero has zero probability of occurrence. The rules for calculating norms and probabilities are beyond the scope of this article. However, they imply that for a spin network to have nonzero norm, two requirements must be met at each vertex. Suppose a vertex joins three units with spin numbers "a", "b", and "c". Then:
* "a" must be less than or equal to "b+c", "b" less than or equal to "a+c", and "c" less than or equal to "a+b". This requirement is the triangle inequality;
* "a+b+c" must be an even number. This requirement is called "fermion conservation".For example, "a=3, b=4, c=5" is possible since "3+4+5=12" is even and the triangle inequality is satisfied. However, "a=3, b=4, c=6" is impossible since "3+4+6=13" is odd, and "a=3, b=4, c=9" is impossible since "3+4<9".

Formal definition

More formally, a spin network is a (directed) graph whose edges are associated with irreducible representations of a compact Lie group and whose vertices are associated with intertwiners of the edge representations adjacent to it.

A spin network, immersed into a manifold, can be used to define a functional on the space of connections on this manifold. One computes holonomies of the connection along every link of the graph, determines representation matrices corresponding to every link, multiplies all matrices and intertwiners together, and contracts indices in a prescribed way. A remarkable feature of the resulting functional is that it is invariant under local gauge transformations.

Usage in physics

In the context of loop quantum gravity

In loop quantum gravity (LQG), a spin network represents a "quantum state" of the gravitational field on a 3-dimensional hypersurface. The set of all possible spin networks (or, more accurately, "s-knots" - that is, equivalence classes of spin networks under diffeomorphisms) is countable; it constitutes a basis of LQG Hilbert space.

One of the key results of loop quantum gravity is quantization of areas: the operator of the area A of a two-dimensional surface Sigma should have a discrete spectrum. Every spin network is an eigenstate of each such operator, and the area eigenvalue equals

:A_{Sigma} = 8pi l_{PL}^2gammasum_i sqrt{j_i(j_i+1)}

where the sum goes over all intersections i of Sigma with the spin network. In this formula,
*l_{PL} is the Planck Length,
*gamma is the Immirzi parameter and
*j_i=0,1/2,1,3/2,dots is the spin associated with the link i of the spin network. The two-dimensional area is therefore "concentrated" in the intersections with the spin network.

According to this formula, the lowest possible non-zero eigenvalue of the area operator corresponds to a link that carries spin 1/2 representation. Assuming an Immirzi parameter on the order of 1, this gives the smallest possible measurable area of ~10-66 cm2.

The formula for area eigenvalues becomes somewhat more complicated if the surface is allowed to pass through the nodes (it is not yet clear if these situations are physically meaningful.)

Similar quantization applies to the volume operator. The volume of 3-d submanifold that contains part of spin network is given by a sum of contributions from each node inside it. One can think that every node in a spin network is an elementary "quantum of volume" and every link is a "quantum of area" surrounding this volume.

More general gauge theories

Similar constructions can be made for general gauge theories with a compact Lie group G and a connection form. This is actually an exact duality over a lattice. Over a manifold however, assumptions like diffeomorphism invariance are needed to make the duality exact (smearing Wilson loops is tricky). Later, it was generalized by Robert Oeckl to representations of quantum groups in 2 and 3 dimensions using the Tannaka-Krein duality.

Michael A. Levin and Xiao-Gang Wen have also defined another generalization of spin networks which they call string-nets using tensor categories. String-net condensation produces topologically ordered states in condensed matter.

Usage in mathematics

In mathematics, spin networks have been used to study skein modules and character varieties, which correspond to spaces of connections.

ee also

*spin foam
*string-net
*Penrose graphical notation
*trace diagram
*character variety

References

Early papers:
*Sum of Wigner coefficients and their graphical representation, I. B. Levinson, ``Proceed. Phys-Tech Inst. Acad Sci. Lithuanian SSR" 2, 17-30 (1956)
*Applications of negative dimensional tensors, Roger Penrose, in "Combinatorial Mathematics and its Applications", Academic Press (1971)
*Hamiltonian formulation of Wilson's lattice gauge theories, John Kogut and Leonard Susskind, "Phys. Rev. D" 11, 395&ndash;408 (1975)
*The lattice gauge theory approach to quantum chromodynamics, John B. Kogut, "Rev. Mod. Phys." 55, 775&ndash;836 (1983) (see the Euclidean high temperature (strong coupling) section)
*Duality in field theory and statistical systems, Robert Savit, "Rev. Mod. Phys." 52, 453&ndash;487 (1980) (see the sections on Abelian gauge theories)

Modern papers:

* The dual of non-Abelian lattice gauge theory, Hendryk Pfeiffer and Robert Oeckl, hep-lat/0110034.
* Exact duality transformations for sigma models and gauge theories, Hendryk Pfeiffer, hep-lat/0205013.
* Generalized Lattice Gauge Theory, Spin Foams and State Sum Invariants, Robert Oeckl, hep-th/0110259.
* Spin Networks in Gauge Theory, John C. Baez, Advances in Mathematics, Volume 117, Number 2, February 1996, pp. 253&ndash;272.
* Quantum Field Theory of Many-body Systems &ndash; from the Origin of Sound to an Origin of Light and Fermions, Xiao-Gang Wen, [http://dao.mit.edu/~wen/pub/chapter11.pdf] . (Dubbed "string-nets" here.)
* A Spin Network Primer, Seth A. Major, American Journal of Physics, Volume 67, 1999, gr-qc/9905020.

Books:

* Diagram Techniques in Group Theory, G. E. Stedman, Cambridge University Press, 1990
* Group Theory: Birdtracks, Lie's, and Exceptional Groups, Predrag Cvitanović, Princeton University Press, 2008, http://birdtracks.eu/


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