233 research outputs found
Very light dilaton and naturally light Higgs boson
We study very light dilaton, arising from a scale-invariant ultraviolet
theory of the Higgs sector in the standard model of particle physics. Imposing
the scale symmetry below the ultraviolet scale of the Higgs sector, we
alleviate the fine-tuning problem associated with the Higgs mass. When the
electroweak symmetry is spontaneously broken radiatively \`a la
Coleman-Weinberg, the dilaton develops a vacuum expectation value away from the
origin to give an extra contribution to the Higgs potential so that the Higgs
mass becomes naturally around the electroweak scale. The ultraviolet scale of
the Higgs sector can be therefore much higher than the electroweak scale, as
the dilaton drives the Higgs mass to the electroweak scale. We also show that
the light dilaton in this scenario is a good candidate for dark matter of mass
, if the ultraviolet scale is about
. Finally we propose a dilaton-assisted composite Higgs model
to realize our scenario. In addition to the light dilaton the model predicts a
heavy axial vector boson and two massive, oppositely charged,
pseudo Nambu-Goldstone bosons, which might be accessible at LHC.Comment: 20 pages, 5 figures; v4. an appendix added, to appear in JHE
Anomalous currents in dense matter under a magnetic field
We consider fermionic dense matter under a magnetic field, where fermions
couple minimally to gauge fields, and calculate anomalous currents at one loop.
We find anomalous currents are spontaneously generated along the magnetic field
but fermions only in the lowest Landau level contribute to anomalous currents.
We then show that there are no more corrections to the anomalous currents from
two or higher loops.Comment: 10 pages, 2 figures; v2, references added, minor chang
Effective theory of color superconductivity
We briefly review an effective theory of QCD at high baryon density,
describing the relevant modes near the Fermi surface. The high density
effective theory has properties of reparametrization invariance and gauge
invariance, maintained in a subtle way. It also has a positive measure,
allowing lattice simulations at high baryon density. We then apply it to
gapless superconductors and discuss recent proposals to resolve the magnetic
instability of gapless superconductivity.Comment: 8 pages, 3 figures; To appear in the proceedings of YKIS Seminar on
New Frontiers in QCD, Kyoto, Japan, 20 Nov - 8 Dec 200
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