796 research outputs found
A new interpretation of dielectric data in molecular glass formers
Literature dielectric data of glycerol, propylene carbonate and
ortho-terphenyl (OTP) show that the measured dielectric relaxation is a decade
faster than the Debye expectation, but still a decade slower than the breakdown
of the shear modulus. From a comparison of time scales, the dielectric
relaxation seems to be due to a process which relaxes not only the molecular
orientation, but the entropy, the short-range order and the density as well. On
the basis of this finding, we propose an alternative to the
Gemant-DiMarzio-Bishop extension of the Debye picture.Comment: 7 pages, 4 figures, 68 references; 3. version extended following
referee advic
Electrophysiological correlates of prediction formation in anticipation of reward- and punishment-related feedback signals
Item does not contain fulltextFeedback processing during decision making involves comparing anticipated and actual outcome. Although effects on ERPs of valence, magnitude, expectancy, and context during feedback processing have been extensively investigated, the electrophysiological processes underlying prediction formation in anticipation of feedback signals have received little attention. The aim of the present study was to explore these processes of prediction formation and their influence on subsequent feedback signals. Twenty healthy, right-handed volunteers performed a forced-choice task in which they had to indicate which of two presented objects was more expensive. After the volunteer's choice, an expert cue, which was accurate in 80% of trials, was presented to manipulate prediction formation about future reward and punishment. ERPs were recorded during presentation of the expert cue and during feedback. Results revealed that prediction formation of future rewards and punishments is accompanied by differences in the P2 component and a subsequent delay period. During feedback processing, the prediction-related P2 was associated with the processing of valence reflected in the feedback-related P2. Furthermore, the prediction-related difference in the delay period was associated with error processing in feedback-related medial frontal negativity. These findings suggest that prediction signals prior to feedback contain information about whether a prediction is correct or wrong (expectancy) and if the outcome will be a reward or punishment (valence).12 p
On the saturation of YAGO
YAGO is an automatically generated ontology out of Wikipedia
and WordNet. It is eventually represented in a proprietary
flat text file format and a core comprises 10 million facts
and formulas. We present a translation of YAGO into the
Bernays-Sch¨onfinkel Horn class with equality. A new
variant of the superposition calculus is sound, complete
and terminating for this class. Together with extended term
indexing data structures the new calculus is implemented in
Spass-YAGO. YAGO can be finitely saturated by Spass-YAGO in
about 1 hour.We have found 49 inconsistencies in the original
generated ontology which we have fixed. Spass-YAGO can then
prove non-trivial conjectures with respect to the resulting
saturated and consistent clause set of about 1.4 GB in less
than one second
Scaling the Temperature-dependent Boson Peak of Vitreous Silica with the high-frequency Bulk Modulus derived from Brillouin Scattering Data
The position and strength of the boson peak in silica glass vary considerably
with temperature . Such variations cannot be explained solely with changes
in the Debye energy. New Brillouin scattering measurements are presented which
allow determining the -dependence of unrelaxed acoustic velocities. Using a
velocity based on the bulk modulus, scaling exponents are found which agree
with the soft-potential model. The unrelaxed bulk modulus thus appears to be a
good measure for the structural evolution of silica with and to set the
energy scale for the soft potentials.Comment: Accepted for publication in Physical Review Letter
The telomeric transcriptome of Schizosaccharomyces pombe
Eukaryotic telomeres are transcribed into telomeric repeat-containing RNA (TERRA). Telomeric transcription has been documented in mammals, birds, zebra fish, plants and budding yeast. Here we show that the chromosome ends of Schizosaccharomyces pombe produce distinct RNA species. As with budding yeast and mammals, S. pombe contains G-rich TERRA molecules and subtelomeric RNA species transcribed in the opposite direction of TERRA (ARRET). Moreover, fission yeast chromosome ends produce two novel RNA species: C-rich telomeric repeat-containing transcripts (ARIA) and subtelomeric transcripts complementary to ARRET (αARRET). RNA polymerase II (RNAPII) associates with pombe chromosome ends in vivo and the telomeric factor Rap1 negatively regulates this association, as well as the cellular accumulation of RNA emanating from chromosome ends. We also show that the RNAPII subunit Rpb7 and the non-canonical poly(A) polymerases Cid12 and Cid14 are involved in the regulation of TERRA, ARIA, ARRET and αARRET transcripts. We confirm the evolutionary conservation of telomere transcription, and reveal intriguing similarities and differences in the composition and regulation of telomeric transcripts among model organism
Detection of the Crab Nebula using a Random Forest Analysis of the first TAIGA IACT Data
The Tunka Advanced Instrument for Gamma- and cosmic-ray Astronomy (TAIGA) is
a multicomponent experiment for the measurement of TeV to PeV gamma- and cosmic
rays. Our goal is to establish a novel hybrid direct air shower technique,
sufficient to access the energy domain of the long-sought Pevatrons. The hybrid
air Cherenkov light detection technique combines the strengths of the HiSCORE
shower front sampling array, and two 4 m class, 9.6 deg field
of view Imaging Air Cherenkov Telescopes (IACTs). The HiSCORE array provides
good angular and shower core position resolution, while the IACTs provide the
image shape and orientation for gamma-hadron separation. In future, an
additional muon detector will be used for hadron tagging at 100 TeV
energies. Here, only data from the first IACT of the TAIGA experiment are used.
A random forest algorithm was trained using Monte Carlo (MC) simulations and
real data, and applied to 85 h of selected observational data tracking the Crab
Nebula at a mean zenith angle of 33.5 deg, resulting in a threshold energy of 6
TeV for this dataset. The analysis was performed using the gammapy package. A
total of 163.5 excess events were detected, with a statistical significance of
8.5 sigma. The observed spectrum of the Crab Nebula is best fit with a power
law above 6 TeV with a flux normalisation of at a reference energy of 13 TeV and a spectral index
of .Comment: 8 pages, 9 figures, accepted by MNRA
The case: chronic kidney disease unmasked by single-subject research
We present a 42-year-old man with a BMI of 32, who was referred because of proteinuria and decreased renal function. We were impressed by his markedly muscular physique. A renal biopsy was performed, which showed focal segmental glomerular sclerosis (FSGS). Is this patient merely an obese person with FSGS or is something else going on here? We performed extensive clinical and laboratory examinations, genetic testing, and anthropometric data monitoring over time. We transferred our methodology for routine FSGS mutation screening (Sanger sequencing) to the Ion Torrent PGM platform with a new custom-targeted NGS gene panel (Ion Ampliseq FSGS panel) and tested the performance of the system in two cohorts of patients with FSGS. We discuss FSGS in bodybuilders, including possible mechanisms, and review the literature
Molecular observation of contour-length fluctuations limiting topological confinement in polymer melts
In order to study the mechanisms limiting the topological chain confinement in polymer melts, we have performed neutron-spin-echo investigations of the single-chain dynamic-structure factor from polyethylene melts over a large range of chain lengths. While at high molecular weight the reptation model is corroborated, a systematic loosening of the confinement with decreasing chain length is found. The dynamic-structure factors are quantitatively described by the effect of contour-length fluctuations on the confining tube, establishing this mechanism on a molecular level in space and time
Fragility and compressibility at the glass transition
Isothermal compressibilities and Brillouin sound velocities from the
literature allow to separate the compressibility at the glass transition into a
high-frequency vibrational and a low-frequency relaxational part. Their ratio
shows the linear fragility relation discovered by x-ray Brillouin scattering
[1], though the data bend away from the line at higher fragilities. Using the
concept of constrained degrees of freedom, one can show that the vibrational
part follows the fragility-independent Lindemann criterion; the fragility
dependence seems to stem from the relaxational part. The physical meaning of
this finding is discussed. [1] T. Scopigno, G. Ruocco, F. Sette and G. Monaco,
Science 302, 849 (2003)Comment: 4 pages, 2 figures, 2 tables, 33 references. Slightly changed after
refereein
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