528 research outputs found
Massive quark scattering at strong coupling from AdS/CFT
We extend the analysis of Alday and Maldacena for obtaining gluon scattering
amplitudes at strong coupling to include external massive quark states. Our
quarks are actually the N=2 hypermultiplets which arise when D7-brane probes
are included in the AdS_5 x S^5 geometry. We work in the quenched
approximation, treating the N=2 matter multiplets as external sources coupled
to the N=4 SYM fields. We first derive appropriate massive-particle boundary
conditions for the string scattering worldsheets. We then find an exact
worldsheet which corresponds to the scattering of two massive quarks and two
massless gluons and extract from this the associated scattering amplitude. We
also find the worldsheet and amplitude for the scattering of four massive
quarks. Our worldsheet solutions reduce to the four massless gluon solution of
Alday and Maldacena in the limit of zero quark mass. The amplitudes we compute
can also be interpreted in terms of 2-2 scattering involving gluons and massive
W-bosons.Comment: 46 pages, 11 figures, v4: additional comments added to intr
Next-to-next-to-leading soft-gluon corrections for the top quark cross section and transverse momentum distribution
I present results for top quark production in hadronic collisions at LHC and
Tevatron energies. The soft-gluon corrections to the differential cross section
are resummed at next-to-next-to-leading-logarithm (NNLL) accuracy via the
two-loop soft anomalous dimension matrices. Approximate
next-to-next-to-leading-order (NNLO) differential and total cross sections are
calculated. Detailed theoretical predictions are shown for the t tbar cross
section and the top quark p_T distribution at the Tevatron and the LHC.Comment: 23 pages, 14 figures; additional results and figure
A novel 3D multilateration sensor using distributed ultrasonic beacons for indoor navigation
Navigation and guidance systems are a critical part of any autonomous vehicle. In this paper, a novel sensor grid using 40 KHz ultrasonic transmitters is presented for adoption in indoor 3D positioning applications. In the proposed technique, a vehicle measures the arrival time of incoming ultrasonic signals and calculates the position without broadcasting to the grid. This system allows for conducting silent or covert operations and can also be used for the simultaneous navigation of a large number of vehicles. The transmitters and receivers employed are first described. Transmission lobe patterns and receiver directionality determine the geometry of transmitter clusters. Range and accuracy of measurements dictate the number of sensors required to navigate in a given volume. Laboratory experiments were performed in which a small array of transmitters was set up and the sensor system was tested for position accuracy. The prototype system is shown to have a 1-sigma position error of about 16 cm, with errors between 7 and 11 cm in the local horizontal coordinates. This research work provides foundations for the future development of ultrasonic navigation sensors for a variety of autonomous vehicle applications
A nonperturbative model for the strong running coupling within potential approach
A nonperturbative model for the QCD invariant charge, which contains no
low-energy unphysical singularities and possesses an elevated higher loop
corrections stability, is developed in the framework of potential approach. The
static quark-antiquark potential is constructed by making use of the proposed
model for the strong running coupling. The obtained result coincides with the
perturbative potential at small distances and agrees with relevant lattice
simulation data in the nonperturbative physically-relevant region. The
developed model yields a reasonable value of the QCD scale parameter, which is
consistent with its previous estimations obtained within potential approach.Comment: 14 pages, 4 figure
Tree biomass in the Swiss landscape: nationwide modelling for improved accounting for forest and non-forest trees
Trees outside forest (TOF) can perform a variety of social, economic and ecological functions including carbon sequestration. However, detailed quantification of tree biomass is usually limited to forest areas. Taking advantage of structural information available from stereo aerial imagery and airborne laser scanning (ALS), this research models tree biomass using national forest inventory data and linear least-square regression and applies the model both inside and outside of forest to create a nationwide model for tree biomass (above ground and below ground). Validation of the tree biomass model against TOF data within settlement areas shows relatively low model performance (R 2 of 0.44) but still a considerable improvement on current biomass estimates used for greenhouse gas inventory and carbon accounting. We demonstrate an efficient and easily implementable approach to modelling tree biomass across a large heterogeneous nationwide area. The model offers significant opportunity for improved estimates on land use combination categories (CC) where tree biomass has either not been included or only roughly estimated until now. The ALS biomass model also offers the advantage of providing greater spatial resolution and greater within CC spatial variability compared to the current nationwide estimates
Hadronization effects in event shape moments
We study the moments of hadronic event shapes in annihilation within
the context of next-to-next-to-leading order (NNLO) perturbative QCD
predictions combined with non-perturbative power corrections in the dispersive
model. This model is extended to match upon the NNLO perturbative prediction.
The resulting theoretical expression has been compared to experimental data
from JADE and OPAL, and a new value for has been determined, as
well as of the average coupling in the non-perturbative region below
GeV within the dispersive model:
\alpha_s(M_Z)&=0.1153\pm0.0017(\mathrm{exp})\pm0.0023(\mathrm{th}),\alpha_0&=0.5132\pm0.0115(\mathrm{exp})\pm0.0381(\mathrm{th}),
The precision of the value has been improved in comparison to
the previously available next-to-leading order analysis. We observe that the
resulting power corrections are considerably larger than those estimated from
hadronization models in multi-purpose event generator programs.Comment: 23 pages, 5 figures, 15 tables. Few minor changes. Version accepted
for publication in European Physical Journal C
Three-loop corrections to the soft anomalous dimension in multi-leg scattering
We present the three-loop result for the soft anomalous dimension governing
long-distance singularities of multi-leg gauge-theory scattering amplitudes of
massless partons. We compute all contributing webs involving semi-infinite
Wilson lines at three loops and obtain the complete three-loop correction to
the dipole formula. We find that non-dipole corrections appear already for
three coloured partons, where the correction is a constant without kinematic
dependence. Kinematic dependence appears only through conformally-invariant
cross ratios for four coloured partons or more, and the result can be expressed
in terms of single-valued harmonic polylogarithms of weight five. While the
non-dipole three-loop term does not vanish in two-particle collinear limits,
its contribution to the splitting amplitude anomalous dimension reduces to a
constant, and it only depends on the colour charges of the collinear pair,
thereby preserving strict collinear factorization properties. Finally we verify
that our result is consistent with expectations from the Regge limit.Comment: v2: remaining diagrams computed; colour conservation accounted for;
strict collinear factorization shown to hold. Some references added. 6 pages,
2 figure
The use of kainic acid for studying the origins of scalp-recorded auditory brainstem responses in the guinea pig
Kainic acid was injected into the medial nucleus of the trapezoid body (MNTB) of guinea pigs to evaluate its use in studying generator loci of the scalp-recorded auditory brain stem response (ABR). Sound-evoked near-field potentials from the MNTB and far-field ABRs were recorded before, during and up to 2 h after the injections. Two hours post-injection, small amounts of kainic acid (0.25 nmol in 0.1 [mu]l of Ringer solution) resulted in neuronal destruction which histologically appeared confined to the MNTB. Larger amounts (10 nmol in 1.0 [mu]l) produced more extensive lesions. Regardless of the dose of kainic acid, near-field activity evoked by contralateral ear stimulation was almost totally abolished and ABR wave III amplitude was reduced by as much as 60%. In future studies, the use of excitotoxic amino acids to produce lesions within complex nuclear subdivisions of the auditory pathway may yield valuable information as to the relative contributions that brainstem structures make to the various waves comprising the ABR and about the behavioral effects that axon sparing lesions produce.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/24227/1/0000487.pd
A novel series solution to the renormalization group equation in QCD
Recently, the QCD renormalization group (RG) equation at higher orders in
MS-like renormalization schemes has been solved for the running coupling as a
series expansion in powers of the exact 2-loop order coupling. In this work, we
prove that the power series converges to all orders in perturbation theory.
Solving the RG equation at higher orders, we determine the running coupling as
an implicit function of the 2-loop order running coupling. Then we analyze the
singularity structure of the higher order coupling in the complex 2-loop
coupling plane. This enables us to calculate the radii of convergence of the
series solutions at the 3- and 4-loop orders as a function of the number of
quark flavours . In parallel, we discuss in some detail the
singularity structure of the coupling at the 3- and 4-loops in
the complex momentum squared plane for . The
correspondence between the singularity structure of the running coupling in the
complex momentum squared plane and the convergence radius of the series
solution is established. For sufficiently large values, we find
that the series converges for all values of the momentum squared variable
. For lower values of , in the scheme,
we determine the minimal value of the momentum squared above
which the series converges. We study properties of the non-power series
corresponding to the presented power series solution in the QCD Analytic
Perturbation Theory approach of Shirkov and Solovtsov. The Euclidean and
Minkowskian versions of the non-power series are found to be uniformly
convergent over whole ranges of the corresponding momentum squared variables.Comment: 29 pages,LateX file, uses IOP LateX class file, 2 figures, 13 Tables.
Formulas (4)-(7) and Table 1 were relegated to Appendix 1, some notations
changed, 2 footnotes added. Clarifying discussion added at the end of Sect.
3, more references and acknowledgments added. Accepted for publication in
Few-Body System
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