General covariant transformations

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Template:No footnotes In mathematics, nonlinear realization of a Lie group G possessing a Cartan subgroup H is a particular induced representation of G. In fact it is a representation of a Lie algebra g of G in a neighborhood of its origin.

A nonlinear realization technique is part and parcel of many field theories with spontaneous symmetry breaking, e.g., nonlinear sigma model, chiral symmetry breaking, Goldstone boson theory, classical Higgs field theory, gauge gravitation theory and supergravity.

Let G be a Lie group and H its Cartan subgroup which admits a linear representation in a vector space V. A Lie algebra g of G is split into the sum g=h+f of the Cartan subalgebra h of H and its supplement f so that

[f,f]h,[f,h]f.

There exists an open neighbourhood U of the unit of G such that any element gU is uniquely brought into the form

g=exp(F)exp(I),Ff,Ih.

Let UG be an open neighborhood of the unit of G such that UG2U, and let U0 be an open neighborhood of the H-invariant center σ0 of the quotient G/H which consists of elements

σ=gσ0=exp(F)σ0,gUG.

Then there is a local section s(gσ0)=exp(F) of GG/H over U0. With this local section, one can define the induced representation, called the nonlinear realization, of elements gUGG on U0×V given by the expressions

gexp(F)=exp(F)exp(I),g:(exp(F)σ0,v)(exp(F)σ0,exp(I)v).

The corresponding nonlinear realization of a Lie algebra g of G takes the following form. Let {Fα}, {Ia} be the bases for f and h, respectively, together with the commutation relations

[Ia,Ib]=cabdId,[Fα,Fβ]=cαβdId,[Fα,Ib]=cαbβFβ.

Then a desired nonlinear realization of g in f×V reads

Fα:(σγFγ,v)(Fα(σγ)Fγ,Fα(v)),Ia:(σγFγ,v)(Ia(σγ)Fγ,Iav),,
Fα(σγ)=δαγ+112(cαμβcβνγ3cαμbcνbγ)σμσν,Ia(σγ)=caνγσν,

up to the second order in σα. In physical models, the coefficients σα are treated as Goldstone fields. Similarly, nonlinear realization of Lie superalgebras is comsidered.

See also

References

  • Coleman S., Wess J., Zumino B., Structure of phenomenological Lagrangians, I, II, Phys. Rev. 177 (1969) 2239.
  • Joseph A., Solomon A., Global and infinitesimal nonlinear chiral transformations, J. Math. Phys. 11 (1970) 748.
  • Giachetta G., Mangiarotti L., Sardanashvily G., Advanced Classical Field Theory, World Scientific, 2009, ISBN 978-981-283-895-7.

External links