568 research outputs found
Effective Field Theory of the Linear Sigma Model
The low energy structure of a theory containing light and heavy particle
species which are separated by a mass gap can adequately be described by an
effective theory which contains only the light particles. In this work we
present a thorough analysis of the effective field theory of the linear
sigma model in the spontaneously broken phase. In particular, we present a
detailed discussion of two techniques, a short-distance expansion and a method
based on loop-integrals, which can be used to explicitly evaluate the
functional relationships between the low energy constants of the effective
theory and the parameters of the underlying theory. We furthermore provide a
detailed analysis of the matching relation between the linear sigma model and
its effective theory, in order to clarify some discrepancies which can be found
in the literature.Comment: 42 pages, LaTeX, BUTP-94/12, HUTP-94/A012, to appear in Ann. Phy
Effective Field Theory for a Heavy Higgs: a Manifestly Gauge Invariant Approach
For large values of the Higgs boson mass the low energy structure of the
gauged linear sigma model in the spontaneously broken phase can adequately be
described by an effective field theory. In this work we present a manifestly
gauge invariant technique to explicitly evaluate the corresponding effective
Lagrangian from the underlying theory. In order to demonstrate the application
of this functional method, the effective field theory of the abelian Higgs
model is thoroughly analyzed. We stress that this technique does not rely on
any particular property of the abelian case. The application to the non-abelian
theory is outlined.Comment: 32 pages, LaTeX. A postscript file is available at
ftp://ftp-itp.unibe.ch/pub/preprints/1995/BUTP-95_5.ps.g
Resonance saturation in the odd-intrinsic parity sector of low-energy QCD
Using the large N_C approximation we have constructed the most general chiral
resonance Lagrangian in the odd-intrinsic parity sector that can generate low
energy chiral constants up to O(p^6). Integrating out the resonance fields
these O(p^6) constants are expressed in terms of resonance couplings and
masses. The role of eta' is discussed and its contribution is explicitly
factorized. Using the resonance basis we have also calculated two QCD Green
functions of currents: and and found, imposing high energy
constraints, additional relations for resonance couplings. We have studied
several phenomenological implications based on these correlators from which let
us mention here our prediction for the pi0-pole contribution to the muon g-2
factor: .Comment: 42 pages, 3 figure
Invisibly decaying Higgs boson in the Littlest Higgs model with T-parity
We show that there are regions in the parameter space of the Littlest Higgs
model with T-parity, allowed by electroweak precision data, where the Higgs
boson can decay invisibly into a pair of heavy photons A_H with a substantial
branching ratio. For a symmetry breaking scale f in the range 450-600 GeV, the
BR(H -> A_H A_H) can be up to 95% for an intermediate mass Higgs, and from 20%
down to a few percents for a Higgs boson of mass 200 GeV or above. The total
decay width of the Higgs boson can thereby be enhanced by an order of magnitude
compared to the Standard Model for Higgs masses around 130 GeV.Comment: 4 pages, 2 figures, Latex (stylefiles included); Talk presented by
A.N. at the International Workshop on Theoretical High Energy Physics (IWTHEP
2007), Roorkee, India, 15-20 March 2007, to appear in the proceeding
The Pion-Photon Transition Form Factor and New Physics in the Tau Sector
Recent measurement of the form factor of the neutral pion
in the high region disagrees with {\em a priori} predictions of QCD-based
calculations. We comment on existing explanations, and analyze a possibility
that this discrepancy is not due to poorly understood QCD effects, but is a
result of some new physics beyond the standard model (SM). We show that such
physics would necessarily involve a new neutral light state with mass close to
the mass of , and with stronger than couplings to heavier SM
flavors such as , , and . It is found that only the coupling to the
lepton can survive the existing constraints and lead to the observed
rise of the pion form factor relative to at high . We perform
numerical fits to data and determine the allowed range of masses and couplings
for such new particles. This range of masses and couplings could also reduce or
eliminate the tension between the and decay determinations of
the hadronic vacuum polarization. Dedicated experimental analysis of
pair production in association with such new states should provide a conclusive
test of the new physics hypothesis as an explanation to the pion form factor
rise. We also comment on the calculations of the pion form factor in the chiral
quark model, and point out a possible dynamical origin of the quark mass scale
inferred from the form factor measurement.Comment: 13 pages, 6 figures, revtex4-1; v2: additional references, improved
discussion of pion mixing case, published versio
Physics Beyond the Standard Model: Focusing on the Muon Anomaly
We present a model based on the implication of an exceptional E_{6}-GUT
symmetry for the anomalous magnetic moment of the muon. We follow a particular
chain of breakings with Higgses in the 78 and 351 representations. We analyse
the radiative correction contributions to the muon mass and the effects of the
breaking of the so-called Weinberg symmetry. We also estimate the range of
values of the parameters of our model.Comment: 14 RevTeX pages, 5 figure
Deconstructing Non-Abelian Gauge Theories at One Loop
Deconstruction of 5D Yang-Mills gauge theories is studied in next-to-leading
order accuracy. We calculate one-loop corrections to the mass spectrum of the
non-linear gauged sigma-model, which is the low energy effective theory of the
deconstructed theory. Renormalization is carried out following the standard
procedure of effective field theories. The relation between the radius of the
compactified fifth dimension and the symmetry breaking scale of the non-linear
sigma-model is modified by radiative corrections. We demonstrate that one can
match the low lying spectrum of the gauge boson masses of the effective 4D
gauged non-linear sigma-model to the Kaluza-Klein modes of the 5D theory at
one-loop accuracy
Precise mass-dependent QED contributions to leptonic g-2 at order alpha^2 and alpha^3
Improved values for the two- and three-loop mass-dependent QED contributions
to the anomalous magnetic moments of the electron, muon, and tau lepton are
presented. The Standard Model prediction for the electron (g-2) is compared
with its most precise recent measurement, providing a value of the
fine-structure constant in agreement with a recently published determination.
For the tau lepton, differences with previously published results are found and
discussed. An updated value of the fine-structure constant is presented in
"Note added after publication."Comment: 6 pages, 1 figure. v2: New determination of alpha presented (based on
the recent electron g-2 measurement). v3: New formulae added in Sec.IIB. v4:
Updated value of alpha presente
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