Custodial symmetry

Motivation

In particle physics, the extra symmetry of the Higgs potential in the Standard Model

responsible for keeping ≈ 1 and ensuring small corrections to is called a custodial symmetry.[1] (Note is a ratio involving the masses of the weak bosons and the Weinberg angle).

With one or more electroweak Higgs doublets in the Higgs sector, the effective action term which generically arises with physics beyond the Standard Model at the scale Λ contributes to the Peskin-Takeuchi T parameter.

Current precision electroweak measurements restrict Λ to more than a few TeV. Attempts to solve the gauge hierarchy problem generically require the addition of new particles below that scale, however.

What is custodial symmetry?

Before electroweak symmetry breaking there was a global SU(2)xSU(2) symmetry in higgs potential. Which got broken to SU(2) after electroweak symmetry breaking.This remnant symmetry is called custodial symmetry.The total standard model lagrangian would be custodial symmetric if yukawa couplings are same i.e Yu=Yd and hypercharge coupling is zero.It is very important to see beyond standard model effect by testing including new terms which violates custodial symmetry.

Construction

The preferred way of preventing the term from being generated is to introduce an approximate symmetry which acts upon the Higgs sector. In addition to the gauged SU(2)W which acts exactly upon the Higgs doublets, we will also introduce another approximate global SU(2)R symmetry which also acts upon the Higgs doublet. The Higgs doublet is now a real representation (2,2) of SU(2)L × SU(2)R with four real components. Here, we have relabeled W as L following the standard convention. Such a symmetry will not forbid Higgs kinetic terms like or tachyonic mass terms like or self-coupling terms like (fortunately!) but will prevent .

Such an SU(2)R symmetry can never be exact and unbroken because otherwise, the up-type and the down-type Yukawa couplings will be exactly identical. SU(2)R does not map the hypercharge symmetry U(1)Y to itself but the hypercharge gauge coupling strength is small and in the limit as it goes to zero, we won't have a problem. U(1)Y is said to be weakly gauged and this explicitly breaks SU(2)R.

After the Higgs doublet acquires a nonzero vacuum expectation value, the (approximate) SU(2)L × SU(2)R symmetry is spontaneously broken to the (approximate) diagonal subgroup SU(2)V. This approximate symmetry is called the custodial symmetry.[2]

See also

References

  1. P. Sikivie, L. Susskind, M. B. Voloshin and V. I. Zakharov, Nucl. Phys. B 173, 189 (1980).
  2. B. Grzadkowski, M. Maniatis, Jose Wudka, "Note on Custodial Symmetry in the Two-Higgs-Doublet Model", arXiv:1011.5228.
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