7,153 research outputs found
Assessing Glacial Modification of Bedrock Valleys in the Sierra Nevada, California, Using a Novel Approach
This study employed a semi-automated approach to evaluate the degree of glacial modification of bedrock valleys in the Sierra Nevada, California, by quantifying morphological variability in cross-sectional form assessed from ~27,000 locations throughout the range. Measures of morphology including a shape ratio, a quadratic curve fit, and a power law curve fit were computed for each cross-section along with a novel metric, the V–index, and were compared to mapped glacial extent and bedrock lithology. Results indicate that Quaternary glaciations had a significant effect on bedrock valley morphology that is locally variable and largely independent of lithology at the range scale. Analysis of valley cross-sections and longitudinal profiles further suggest that glaciers in the Sierra Nevada modified pre-existing fluvial valleys primarily through widening. Moreover, the novel V-index is proposed as an alternative to traditional morphological measures due to its utility in describing irregular valley cross-sections and equivalent discriminatory power compared to established techniques for quantifying glacial geomorphology
Comment to "Observation of the neutron radiative decay" by R.U. Khafizov et al., published in JETP Letters 83 (2006) 5 (Pis'ma v ZhETF 83 (2006) 7)
The commented manuscript was submitted for publication without informing at
least four of the other authors, viz. N. Severijns, O. Zimmer, H.-F. Wirth and
D. Rich. This violates our rights as collaborators. The analysis presented and
the manuscript itself have not been discussed and have also not been approved
by the entire collaboration prior to submission. Besides this formal
incorrectness, we also criticise the content of the paper
A van Hemmen-Kondo model for disordered strongly correlated electron systems
We present here a theoretical model in order to describe the competition
between the Kondo effect and the spin glass behavior. The spin glass part of
the starting Hamiltonian contains Ising spins with an intersite exchange
interaction given by the local van Hemmen model, while the Kondo effect is
described as usual by the intrasite exchange . We obtain, for large
values, a Kondo phase and, for smaller values, a succession, with
decreasingComment: 14 pages, 4 figures, accepted for publication in Phys. Rev.
High-sensitivity tool for studying phonon related mechanical losses in low loss materials
Fundamental mechanical loss mechanisms exist even in very pure materials, for
instance, due to the interactions of excited acoustic waves with thermal
phonons. A reduction of these losses in a certain frequency range is desired in
high precision instruments like gravitational wave detectors. Systematic
analyses of the mechanical losses in those low loss materials are essential for
this aim, performed in a highly sensitive experimental set-up. Our novel method
of mechanical spectroscopy, cryogenic resonant acoustic spectroscopy of bulk
materials (CRA spectroscopy), is well suited to systematically determine losses
at the resonant frequencies of the samples of less than 10^(-9) in the wide
temperature range from 5 to 300 K. A high precision set-up in a specially built
cryostat allows contactless excitation and readout of the oscillations of the
sample. The experimental set-up and measuring procedure are described.
Limitations to our experiment due to external loss mechanisms are analysed. The
influence of the suspension system as well as the sample preparation is
explained.Comment: 4 pages, 3 figures, proceedings of PHONONS07, submitted to Journal of
Physics: Conference Serie
Influence of a small fraction of individuals with enhanced mutations on a population genetic pool
Computer simulations of the Penna ageing model suggest that already a small
fraction of births with enhanced number of new mutations can negatively
influence the whole population.Comment: 10 pages including 6 figures; draf
Spin-glass phase transition and behavior of nonlinear susceptibility in the Sherrington-Kirkpatrick model with random fields
The behavior of the nonlinear susceptibility and its relation to the
spin-glass transition temperature , in the presence of random fields, are
investigated. To accomplish this task, the Sherrington-Kirkpatrick model is
studied through the replica formalism, within a one-step
replica-symmetry-breaking procedure. In addition, the dependence of the
Almeida-Thouless eigenvalue (replicon) on the random fields
is analyzed. Particularly, in absence of random fields, the temperature
can be traced by a divergence in the spin-glass susceptibility ,
which presents a term inversely proportional to the replicon . As a result of a relation between and , the
latter also presents a divergence at , which comes as a direct consequence
of at . However, our results show that, in the
presence of random fields, presents a rounded maximum at a temperature
, which does not coincide with the spin-glass transition temperature
(i.e., for a given applied random field). Thus, the maximum
value of at reflects the effects of the random fields in the
paramagnetic phase, instead of the non-trivial ergodicity breaking associated
with the spin-glass phase transition. It is also shown that still
maintains a dependence on the replicon , although in a more
complicated way, as compared with the case without random fields. These results
are discussed in view of recent observations in the LiHoYF
compound.Comment: accepted for publication in PR
Visual Working Memory of Chinese Characters and Expertise: The Expert's Memory Advantage Is Based on Long-Term Knowledge of Visual Word Forms
People unfamiliar with Chinese characters show poorer visual working memory (VWM)
performance for Chinese characters than do literates in Chinese. In a series of
experiments, we investigated the reasons for this expertise advantage. Experiments 1
and 2 showed that the advantage of Chinese literates does not transfer to novel material.
Experts had similar resolution as novices for material outside of their field of expertise,
and the memory of novices and experts did not differ when detecting a big change,
e.g., when a character’s color was changed. Memorizing appears to function as a
rather abstract representation of word forms because memory for characters’ fonts was
poor independently of expertise (Experiment 3), though still visual. Distractors that were
highly similar conceptually did not increase memory errors, but visually similar distractors
impaired memory (Experiment 4). We hypothesized that literates in Chinese represent
characters in VWM as tokens of visual word forms made available by long-term memory.
In Experiment 5, we provided novices with visual word form knowledge. Participants
subsequently performed a change detection task with trained and novel characters
in a functional magnetic resonance experiment. We analyzed set size- and trainingdependent effects in the intraparietal sulcus (IPS) and the visual word form area. VWM for
trained characters was better than for novel characters. Neural activity increased with set
size and at a slower rate for trained than for novel characters. All conditions approached
the same maximum, but novel characters reached the maximum at a smaller set size
than trained characters. The time course of the bold response depended on set size and
knowledge status. Starting from the same initial maximum, neural activity at small set
sizes returned to baseline more quickly for trained characters than for novel characters.
Additionally, high performers showed generally more neural activity in the IPS than low
performers. We conclude that experts’ better performance in working memory (WM)
is caused by the availability of visual long-term representations (word form types) that
allow a sparse representation of the perceived stimuli and make even small changes big
because they cause a type change that is easily detected
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