Chiral superfield

Chiral superfield

In theoretical physics, one often analyzes theories with supersymmetry in which chiral superfields play an important role. In four dimensions, the minimal N=1 supersymmetry may be written using the notion of superspace. Superspace contains the usual space-time coordinates xμ, \mu=0,\ldots,3, and four extra fermionic coordinates \theta^1,\theta^2,\bar\theta^1,\bar\theta^2, transforming as a two-component (Weyl) spinor and its conjugate.

In N=1 supersymmetry in 3+1D, a chiral superfield is a function over chiral superspace. There exists a projection from the (full) superspace to chiral superspace. So, a function over chiral superspace can be pulled back to the full superspace. Such a function satisfies the covariant constraint \overline{D}f=0. Similarly, we also have an antichiral superspace which is the complex conjugate of chiral superspace and antichiral superfields.

Superspace is the homogeneous space of the SUSY supergroup with the Lorentz group as the stabilizer. Chiral superspace is the homogeneous space with the supergroup generated by the Lorentz transformations and \overline{Q} as the stabilizer. Clearly, there is a projection from the former to the latter.

Every superfield—i.e. a field that depends on all coordinates of the superspace—may be expanded with respect to the fermionic coordinates. There exists a special kind of superfields, the so-called chiral superfields, that, in the chiral representation of supersymmetry, depend only on the variables θ but not their conjugates. See also F-terms.

Chiral superfields satisfy the relation \overline{D}_{\dot{\alpha}}f=0. They can also be expressed as fields over chiral superspace.

See also



Wikimedia Foundation. 2010.

Игры ⚽ Нужна курсовая?

Look at other dictionaries:

  • Superfield — In theoretical physics, one often analyzes theories with supersymmetry in which superfields play a very important role. In four dimensions, the simplest example namely the minimal N=1 supersymmetry may be written using a superspace with four… …   Wikipedia

  • Current superfield — In supersymmetry, a current superfield is a real superfield J stasifying:int d^4x d^4 heta JLambda=int d^4x d^4 heta Joverline{Lambda}=0for all chiral superfields Lambda; with compact support. This is the supersymmetric generalization of the… …   Wikipedia

  • Supersymmetric gauge theory — mathcal{N}=1 SUSY in 4D (with 4 real generators) = In theoretical physics, one often analyzes theories with supersymmetry which also haveinternal gauge symmetries. So, it is important to come up with a supersymmetric generalizationof gauge… …   Wikipedia

  • Superpotential — is a concept from particle physics supersymmetry. Example of superpotentialityLet s look at the example of a one dimensional nonrelativistic particle with a 2D (i.e. two state) internal degree of freedom called spin (it s not really spin because… …   Wikipedia

  • Gaugino condensation — In particle physics, gaugino condensation is the nonzero vacuum expectation value in some models of a bilinear expression constructed in theories with supersymmetry from the superpartner of a gauge boson called the gaugino. The gaugino and the… …   Wikipedia

  • F-term — In theoretical physics, one often analyzes theories with supersymmetry in which F terms play an important role. In four dimensions, the minimal N=1 supersymmetry may be written using a superspace. This superspace involves four extra fermionic… …   Wikipedia

  • NMSSM — In particle physics, NMSSM is an acronym for Next to Minimal Supersymmetric Standard Model [1] [2] [3] [4] [5]. It is a supersymmetric extension to the Standard Model that adds an additional singlet chiral superfield to the MSSM and can be used… …   Wikipedia

  • Auxiliary field — In physics, and especially quantum field theory, an auxiliary field is one whose equations of motion admit a single solution. Therefore, the Lagrangian describing such a field A contains an algebraic quadratic term and an arbitrary linear term,… …   Wikipedia

  • Wess-Zumino model — In theoretical physics, the Wess Zumino model has become the first known example of an interacting four dimensional quantum field theory with supersymmetry, at least in the Western world. In 1974, Julius Wess and Bruno Zumino studied, using… …   Wikipedia

  • Axino — The axino is a hypothetical elementary particle predicted by some theories of particle physics. Peccei Quinn theory attempts to explain the observed phenomenon known as the strong CP problem by introducing a hypothetical real scalar particle… …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”