11,279 research outputs found
Linear Collider Physics
The International Linear Collider has a rich physics programme, whatever lies
beyond the standard model. Accurate measurement of the top quark mass is needed
to constrain the model or its extensions. If there is a light Higgs boson the
LHC should see it, but the ILC will pin down its characteristics and test them
against model predictions. If Supersymmetric particles appear the ILC will
measure a complementary set of them to those seen at the LHC, and may allow
extrapolation to the Grand Unified scale. And if a strong electroweak sector is
indicated the ILC will be sensitive to the presence of new structures in
difermion and diboson systems up to higher masses than the direct search range
of the LHC. Beyond the LHC and ILC there could be need for a multi TeV lepton
collider.Comment: Plenary talk at ICHEP 2004, Beijing, 22 August 200
Electroweak Absorptive Parts in NRQCD Matching Conditions
Electroweak corrections associated with the instability of the top quark to
the next-to-next-to-leading logarithmic (NNLL) total top pair threshold cross
section in e+e- annihilation are determined. Our method is based on absorptive
parts in electroweak matching conditions of the NRQCD operators and the optical
theorem. The corrections lead to ultraviolet phase space divergences that have
to be renormalized and lead to NLL mixing effects. Numerically, the corrections
can amount to several percent and are comparable to the known NNLL QCD
corrections.Comment: 17 pages, revtex4, 4 postscript figures included; minor changes in
text and references, title modified in printed versio
Strong efficiency improvement of SOI-LEDs through carrier confinement
Contemporary silicon light-emitting diodes in silicon-on-insulator (SOI) technology suffer from poor efficiency compared to their bulk-silicon counterparts. In this letter, we present a new device structure where the carrier injection takes place through silicon slabs of only a few nanometer thick. Its external quantum efficiency of 1.4 • 10−4 at room temperature, with a spectrum peaking at 1130 nm, is almost two orders higher than reported thus far on SOI. The structure diminishes the dominant role of nonradiative recombination at the n+ and p+contacts, by confining the injected carriers in an SOI peninsula.\ud
With this approach, a compact infrared light source can be fabricated using standard semiconductor processing steps.\u
Three-Loop Anomalous Dimension of the Heavy Quark Pair Production Current in Non-Relativistic QCD
The three-loop non-mixing contributions to the anomalous dimension of the
leading order quark pair production current in non-relativistic QCD are
computed. It is demonstrated that the renormalization procedure can only be
carried out consistently if the dynamics of both soft and the ultrasoft degrees
of freedom is present for all scales below the heavy quark mass, and if the
soft and ultrasoft renormalization scales are always correlated.Comment: 19 pages, revtex, 5 postscript figures include
On Electroweak Matching Conditions for Top Pair Production at Threshold
We determine the real parts of electroweak matching conditions relevant for
top quark pair production close to threshold in e+e- annihilation at
next-to-next-to-leading logarithmic (NNLL) order. Numerically the corrections
are comparable to the NNLL QCD corrections.Comment: 12 pages, revtex4, 1 postscript figure included; minor changes in
text and references, version published in Phys. Rev.
Development and Verification of a Flight Stack for a High-Altitude Glider in Ada/SPARK 2014
SPARK 2014 is a modern programming language and a new state-of-the-art tool
set for development and verification of high-integrity software. In this paper,
we explore the capabilities and limitations of its latest version in the
context of building a flight stack for a high-altitude unmanned glider. Towards
that, we deliberately applied static analysis early and continuously during
implementation, to give verification the possibility to steer the software
design. In this process we have identified several limitations and pitfalls of
software design and verification in SPARK, for which we give workarounds and
protective actions to avoid them. Finally, we give design recommendations that
have proven effective for verification, and summarize our experiences with this
new language
Phase Space Matching and Finite Lifetime Effects for Top-Pair Production Close to Threshold
The top-pair production cross section close to threshold in
collisions is strongly affected by the small lifetime of the top
quark. Since the cross section is defined through final states containing the
top decay products, a consistent definition of the cross section depends on
prescriptions how these final states are accounted for the cross section.
Experimentally, these prescriptions are implemented for example through cuts on
kinematic quantities such as the reconstructed top quark invariant masses. As
long as these cuts do not reject final states that can arise from the decay of
a top and an anti-top quark with a small off-shellness compatible with the
nonrelativistic power-counting, they can be implemented through imaginary phase
space matching conditions in NRQCD. The prescription-dependent cross section
can then be determined from the optical theorem using the forward
scattering amplitude. We compute the phase space matching conditions associated
to cuts on the top and anti-top invariant masses at next-to-next-to-leading
logarithmic (NNLL) order and partially at next-to-next-to-next-to-leading
logarithmic (NLL) order in the nonrelativistic expansion and, together
with finite lifetime and electroweak effects known from previous work, analyze
their numerical impact on the cross section. We show that the phase
space matching contributions are essential to make reliable NRQCD predictions,
particularly for energies below the peak region, where the cross section is
small. We find that irreducible background contributions associated to final
states that do not come from top decays are strongly suppressed and can be
neglected for the theoretical predictions.Comment: 62 pages, 21 figure
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