1,275 research outputs found
Making extreme computations possible with virtual machines
State-of-the-art algorithms generate scattering amplitudes for high-energy
physics at leading order for high-multiplicity processes as compiled code (in
Fortran, C or C++). For complicated processes the size of these libraries can
become tremendous (many GiB). We show that amplitudes can be translated to
byte-code instructions, which even reduce the size by one order of magnitude.
The byte-code is interpreted by a Virtual Machine with runtimes comparable to
compiled code and a better scaling with additional legs. We study the
properties of this algorithm, as an extension of the Optimizing Matrix Element
Generator (O'Mega). The bytecode matrix elements are available as alternative
input for the event generator WHIZARD. The bytecode interpreter can be
implemented very compactly, which will help with a future implementation on
massively parallel GPUs.Comment: 5 pages, 2 figures. arXiv admin note: substantial text overlap with
arXiv:1411.383
Probing the Noncommutative Standard Model at Hadron Colliders
We study collider signals for the noncommutative extension of the standard
model using the Seiberg-Witten maps for SU(3)_C x SU(2)_L x U(1)_Y to first
order in the noncommutativity parameters theta_munu. In particular, we
investigate the ensitivity of Z-gamma-production at the Tevatron and the LHC to
the components of theta_munu. We discuss the range of validity of this
approximation and estimate exclusion limits from a Monte Carlo simulation.Comment: 18 pages LaTeX, 23 figures. Slightly expanded introduction and
additional references. Accepted for publication in Physical Review
Clockwork SUSY: Supersymmetric Ward and Slavnov-Taylor Identities At Work in Green's Functions and Scattering Amplitudes
We study the cancellations among Feynman diagrams that implement the Ward and
Slavnov-Taylor identities corresponding to the conserved supersymmetry current
in supersymmetric quantum field theories. In particular, we show that the
Faddeev-Popov ghosts of gauge- and supersymmetries never decouple from the
physical fields, even for abelian gauge groups. The supersymmetric
Slavnov-Taylor identities provide efficient consistency checks for automatized
calculations and can verify the supersymmetry of Feynman rules and the
numerical stability of phenomenological predictions simultaneously.Comment: 12 pages, feynmp.sty. References added, minor typos corrected and
clarified the scope of the paper in the introduction, published versio
WHIZARD 2.2 for Linear Colliders
We review the current status of the WHIZARD event generator. We discuss, in
particular, recent improvements and features that are relevant for simulating
the physics program at a future Linear Collider.Comment: Talk presented at the International Workshop on Future Linear
Colliders (LCWS13), Tokyo, Japan, 11-15 November 201
Beyond the iron group: heavy metals in hot subdwarfs
We report the discovery of strong photospheric resonance lines of Ga III, Ge
IV, Sn IV and Pb IV in the UV spectra of more than two dozen sdB and sdOB stars
at temperatures ranging from 22000 K to 40000 K. Lines of other heavy elements
are also detected, however in these cases more atomic data are needed. Based on
these discoveries, we present a hypothesis to explain the apparent lack of
silicon in sdB stars hotter than ~32000 K. The existence of triply ionised Ge,
Sn, and Pb suggests that rather than silicon sinking deep into the photosphere,
it is removed from the star in a fractionated stellar wind. This hypothesis
provides a challenge to diffusion models of sdB stars.Comment: 5 pages, 3 figures, to appear in A&A Letter
Modern Particle Physics Event Generation with WHIZARD
We describe the multi-purpose Monte-Carlo event generator WHIZARD for the
simulation of high-energy particle physics experiments. Besides the
presentation of the general features of the program like SM physics, BSM
physics, and QCD effects, special emphasis will be given to the support of the
most accurate simulation of the collider environments at hadron colliders and
especially at future linear lepton colliders. On the more technical side, the
very recent code refactoring towards a completely object-oriented software
package to improve maintainability, flexibility and code development will be
discussed. Finally, we present ongoing work and future plans regarding
higher-order corrections, more general model support including the setup to
search for new physics in vector boson scattering at the LHC, as well as
several lines of performance improvements.Comment: 7 pages; contribution to the proceedings of the conference "ACAT 2014
(Advanced Computing and Analysis Techniques in physics)", Prague, Czech
Republic, September 201
Testing the Noncommutative Standard Model at a Future Photon Collider
Extensions of the Standard Model of elementary particle physics to
noncommutative geometries have been proposed as a low energy limit of string
models. Independent of this motivation, one may consider such a model as an
effective field theory with higher-dimensional operators containing an
antisymmetric rank-two background field. We study the signals of such a
Noncommutative Standard Model (NCSM) and analyze the discovery potential of a
future photon collider, considering angular distributions in fermion pair
production.Comment: 13 pages RevTeX, Feynman diagrams and figures included, references
added, typographical errors in Feynman rules corrected (all results remain
unchangend, since correct Feynman rules were used in the calculations), to
appear in Phys. Rev.
Birth and growth of cavitation bubbles within water under tension confined in a simple synthetic tree
Water under tension, as can be found in several systems including tree
vessels, is metastable. Cavitation can spontaneously occur, nucleating a
bubble. We investigate the dynamics of spon- taneous or triggered cavitation
inside water filled microcavities of a hydrogel. Results show that a stable
bubble is created in only a microsecond timescale, after transient
oscillations. Then, a diffusion driven expansion leads to filling of the
cavity. Analysis reveals that the nucleation of a bubble releases a tension of
several tens of MPa, and a simple model captures the different time scales of
the expansion process
What are effective therapies for Clostridium difficile- associated diarrhea?
Oral metronidazole and oral vancomycin are
equally effective treatments for Clostridium difficile- associated diarrhea (CDAD) (strength of recommendation [SOR]: A, based on randomized trials). Oral vancomycin is considerably more expensive and may select for colonization with vancomycin-resistant enterococci, leading the American College of Gastroenterology to recommend oral metronidazole as preferred therapy (SOR: C, expert opinion). They recommend therapy with vancomycin for those who are pregnant, breast feeding, less than 10years old, nonresponders to metronidazole, critically ill, or allergic or intolerant to metronidazole (SOR: C, expert opinion)
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