389 research outputs found
New Physics at Polarized Hadronic Colliders
Concerning new physics beyond the Standard Model we explore the discovery and
analysis potentials of polarized (hadronic) experiments and we compare with the
unpolarized case. For discovery, beam polarization is helpful in the case of
purely hadronic new interactions. In any case, beam polarization provides us a
unique piece of information on the chiral and flavour structures.Comment: Latex file, 7 pages and 3 ps fig included with psfig.sty. To appear
in the proceedings of the ECT* workshop ``The Spin Structure of the Proton
and Polarized Collider Physics'', July 2001, Trento, Ital
Discovery potential for New Physics in view of the RHIC-Spin upgrade
In view of a possible upgrade of the RHIC-Spin program at BNL, concerning
both the machine and the detectors, we give some predictions concerning the
potentialities of New Physics detection with polarized proton beams. We focus
on parity-violating asymmetries in one-jet production due to contact terms or
to a new leptophobic neutral gauge boson. We comment on the main uncertainties
and we compare with unpolarized searches at Tevatron.Comment: Latex file, 9 pages and 1 ps fig included with psfig.st
Is the Top Quark Really Heavier than the Boson?
Scalar induced top decays may drastically suppress
and still hide the top below . The collider experiments should
enlarge the scope and study the plane. Specific model
signatures such as (multiple high -jets) and
, (with $B(t\to b\tau\nu) \
\raisebox{-.5ex}{\rlap{}} \raisebox{.4ex}{}\ 1/3t^\primeb^\prime$ quark,
while top quark and toponium physics could still turn up at LEP-II.Comment: 11 pages (RevTex), 3 figures (not included), NTUTH-93-0
Relative distributions of W's and Z's at low transverse momenta
Despite large uncertainties in the and transverse momentum
() distributions for q_T\lsim 10 GeV, the ratio of the distributions
varys little. The uncertainty in the ratio of to distributions is
on the order of a few percent, independent of the details of the
nonperturbative parameterization.Comment: 13 pages in revtex, 5 postscript figures available upon request,
UIOWA-94-0
Measuring Double Parton Distributions in Nucleons at Proton-Nucleus Colliders
We predict a strong enhancement of multijet production in proton-nucleus
collisions at collider energies, as compared to a naive expectation of a cross
section . The study of the process would allow to measure, for the
first time, the double parton distribution functions in a nucleon in a model
independent way and hence to study both the longitudinal and the transverse
correlations of partons.Comment: 12 pages, 2 figure
Anomalous prompt photon production in hadronic collisions at low-
We investigate the discrepancy that exists at low- between
the next--to--leading order QCD calculations of prompt photon production and
the measured cross section. The central values of the measured cross section
are of order 100\% larger than QCD predictions in this region. It has been
suggested that the bremsstrahlung contribution may account for this
discrepancy. The quark fragmentation function has not been
measured and an exactly known asymptotic form is normally used in calculations.
We examine the effect of much larger fragmentation functions on the QCD
predictions. After illustrating the effect of the large fragmentation functions
in some detail for recent CDF data at =1.8~TeV, we perform a
fit to 8 prompt photon data sets ranging in CMS energy from 24~GeV to 1.8~TeV.
While a large fragmentation function normalization may prove to play an
important role in resolving the discrepancy, the present theoretical and
experimental uncertainties prevent any definite normalization value from being
determined.Comment: 14 pages, LBL-33122 and UCB-PTH-92/38. 13 figures available by email,
specify postscript or topdrawe
Hadron collider limits on anomalous couplings
A next-to-leading log calculation of the reactions and
is presented including a tri-boson
gauge coupling from non-Standard Model contributions. Two approaches are made
for comparison. The first approach considers the tri-boson coupling
as being uniquely fixed by tree level unitarity at high energies to its
Standard Model form and, consequently, suppresses the non-Standard Model
contributions with form factors. The second approach is to ignore such
considerations and calculate the contributions to non-Standard Model tri-boson
gauge couplings without such suppressions. It is found that at Tevatron
energies, the two approaches do not differ much in quantitative results, while
at Large Hadron Collider (LHC) energies the two approaches give significantly
different predictions for production rates. At the Tevatron and LHC, however,
the sensitivity limits on the anomalous coupling of are too weak to
usefully constrain parameters in effective Lagrangian models.Comment: Revtex 23 pages + 8 figures, UIOWA-94-1
Production of electroweak gauge bosons in off-shell gluon-gluon fusion
We study the production of electroweak gauge bosons at high energies in the
framework of kt-factorization QCD approach. Contributions from the valence
quarks are calculated using the quark-gluon interaction and quark-antiquark
annihilation QCD subprocesses. The total and differential cross sections (as a
function of the transverse momentum and rapidity) are presented and the ratio
of cross sections for W and Z boson production is investigated. The
conservative error analysis is performed. In the numerical calculations two
different sets of unintegrated gluon distributions in the proton are used: the
one obtained from Ciafaloni-Catani-Fiorani-Marchesini evolution equation and
the other from Kimber-Martin-Ryskin prescription. Theoretical results are
compared with experimental data taken by the D0 and CDF collaborations at the
Tevatron. We demonstrate the importance of the quark component in parton
evolution in description of the experimental data. This component is very
significant also at the LHC energies.Comment: 33 pages, 18 figure
Fully differential W' production and decay at next-to-leading order in QCD
We present the fully differential production and decay of a W' boson, with
arbitrary vector and axial-vector couplings, to any final state at
next-to-leading order in QCD. We demonstrate a complete factorization of
couplings at next-to-leading order in both the partial width of the W' boson,
and in the full two-to-two cross section. We provide numerical predictions for
the contribution of a W' boson to single-top-quark production, and separate
results based on whether the mass of the right-handed neutrino (nu_R) is light
enough for the leptonic decay channel to be open. The single-top-quark analysis
will allow for an improved direct W' mass limit of 525-550 GeV using data from
run I of the Fermilab Tevatron. We propose a modified tolerance method for
estimating parton distribution function uncertainties in cross sections.Comment: 23 pages, revtex3, 13 ps fig
Discovery limits for a new contact interaction at future hadronic colliders with polarized beams
The production of high-transverse energy jets in hadron-hadroncollisions is
sensitive to the presence of new contact interactions between quarks. If proton
polarization were available, the measurement of some parity violating spin
asymmetries in one-jet production at large transverse energy would complement
the usual search for deviations from the expected QCD cross section. In the
same time, a unique information on the chirality structure of the new
interaction could be obtained. In this context, we compare the potentialities
of various and colliders that are planned or have been proposed,
with the additional requirement of beam polarization.Comment: Latex file, 9 pages and 1 ps fig, definition of the subprocess
variables and one example of the effect of new contact terms on the parity
violating spin asymmetry are added. Eq. 8 (now eq. 9) and the following
equation are changed, giving better bounds in the polarized pp case (new
figure
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