2,930 research outputs found
On optimal language compression for sets in PSPACE/poly
We show that if DTIME[2^O(n)] is not included in DSPACE[2^o(n)], then, for
every set B in PSPACE/poly, all strings x in B of length n can be represented
by a string compressed(x) of length at most log(|B^{=n}|)+O(log n), such that a
polynomial-time algorithm, given compressed(x), can distinguish x from all the
other strings in B^{=n}. Modulo the O(log n) additive term, this achieves the
information-theoretic optimum for string compression. We also observe that
optimal compression is not possible for sets more complex than PSPACE/poly
because for any time-constructible superpolynomial function t, there is a set A
computable in space t(n) such that at least one string x of length n requires
compressed(x) to be of length 2 log(|A^=n|).Comment: submitted to Theory of Computing System
Transverse momentum resummation for Higgs production via gluon fusion in the MSSM
The resummed transverse momentum distribution of supersymmetric Higgs bosons
produced through gluon fusion at NLO+NLL is presented, including the exact
quark and squark mass dependences. Considering various MSSM scenarios, we
compare our results to previous ones within the POWHEG approach. We analyze the
impact of the bottom loop which becomes the dominant contribution to the gluon
fusion cross section for a wide range of the parameter space for the
pseudo-scalar and heavy Higgs.Comment: 33 pages, 13 figure
Higgs production in bottom quark annihilation: Transverse momentum distribution at NNLO+NNLL
We present the inclusive transverse momentum distribution for Higgs bosons
produced in bottom quark annihilation at the LHC. The results are obtained in
the five-flavor scheme. The soft and collinear terms at small are
resummed through NNLL accuracy and matched to the NNLO transverse momentum
distribution at large . We find that the theoretical uncertainty, derived
from a variation of the unphysical scales entering the calculation, is
significantly reduced with respect to lower orders.Comment: 35 pages, 22 figure
The nature of the animacy organization in human ventral temporal cortex
The principles underlying the animacy organization of the ventral temporal
cortex (VTC) remain hotly debated, with recent evidence pointing to an animacy
continuum rather than a dichotomy. What drives this continuum? According to the
visual categorization hypothesis, the continuum reflects the degree to which
animals contain animal-diagnostic features. By contrast, the agency hypothesis
posits that the continuum reflects the degree to which animals are perceived as
(social) agents. Here, we tested both hypotheses with a stimulus set in which
visual categorizability and agency were dissociated based on representations in
convolutional neural networks and behavioral experiments. Using fMRI, we found
that visual categorizability and agency explained independent components of the
animacy continuum in VTC. Modeled together, they fully explained the animacy
continuum. Finally, clusters explained by visual categorizability were
localized posterior to clusters explained by agency. These results show that
multiple organizing principles, including agency, underlie the animacy
continuum in VTC.Comment: 16 pages, 5 figures, code+data at -
https://doi.org/10.17605/OSF.IO/VXWG9 Update - added supplementary results
and edited abstrac
Enhancement of laser-driven electron acceleration in an ion channel
A long laser beam propagating through an underdense plasma produces a
positively charged ion channel by expelling plasma electrons in the transverse
direction. We consider the dynamics of a test electron in a resulting
two-dimensional channel under the action of the laser field and the transverse
electric field of the channel. A considerable enhancement of the axial momentum
can be achieved in this case via amplification of betatron oscillations. It is
shown that the oscillations can be parametrically amplified when the betatron
frequency, which increases with the wave amplitude, becomes comparable to the
frequency of its modulations. The modulations are caused by non-inertial
(accelerated/decelerated) relativistic axial motion induced by the wave
regardless of the angle between the laser electric field and the field of the
channel. We have performed a parameter scan for a wide range of wave amplitudes
and ion densities and we have found that, for a given density, there is a well
pronounced wave amplitude threshold above which the maximum electron energy is
considerably enhanced. We have also calculated a time-integrated electron
spectrum produced by an ensemble of electrons with a spread in the initial
transverse momentum. The numerical results show that the considerable energy
enhancement is accompanied by spectrum broadening. The presented mechanism of
energy enhancement is robust with respect to an axial increase of ion density,
because it relies on a threshold phenomenon rather than on a narrow linear
resonance
Effect of Indentation on Sandwich Composite Structure Mechanical Behavior
Composite sandwich structures are prevalent in engineering applications where high strength to weight ratios are critical. A composite sandwich includes the addition of a core material between two composite face sheets to increase ultimate stress in compression and bending loading cases. The performance of many composite sandwich structure configurations is well understood in the undamaged case. This analysis examines a type of damage, low velocity indentation, and determines the effect on mechanical behavior. The scope of the analysis includes manufacturing sandwich composite structures, creating indentation in the composite, and testing the sandwich composite structure. The mechanical behavior of the composite sandwich structures is characterized through ASTM C364 test standard for compressive strength and ASTM C393 standard test standard for flexural properties of sandwich constructions. The experiment is conducted with varied indentation depth, core materials, composite sandwich thickness, and composite face sheet thickness. The findings are compared to control specimens and used to determine the effect of indentation depth and create a relationship for the mechanical performance of indented sandwich composites
Review: Object vision in a structured world
In natural vision, objects appear at typical locations, both with respect to visual space (e.g., an airplane in the upper part of a scene) and other objects (e.g., a lamp above a table). Recent studies have shown that object vision is strongly adapted to such positional regularities. In this review we synthesize these developments, highlighting that adaptations to positional regularities facilitate object detection and recognition, and sharpen the representations of objects in visual cortex. These effects are pervasive across various types of high-level content. We posit that adaptations to real-world structure collectively support optimal usage of limited cortical processing resources. Taking positional regularities into account will thus be essential for understanding efficient object vision in the real world
What Body Parts Reveal About the Organization of the Brain
In this issue of Neuron, Orlov et al. show that the human occipitotemporal cortex contains regions responding preferentially to body part categories, such as upper limbs (hand, elbow), torsos, or lower faces (mouth, chin). This organization may reflect differences in the connectivity of these regions with other brain regions, to support the efficient processing of the different types of information different body parts provide.Psycholog
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