801 research outputs found
Symplectic structures on quadratic Lie algebras
We study quadratic Lie algebras over a field K of null characteristic which
admit, at the same time, a symplectic structure. We see that if K is
algebraically closed every such Lie algebra may be constructed as the
T*-extension of a nilpotent algebra admitting an invertiblederivation and also
as the double extension of another quadratic symplectic Lie algebra by the
one-dimensional Lie algebra. Finally, we prove that every symplectic quadratic
Lie algebra is a special symplectic Manin algebra and we give an inductive
classification in terms of symplectic quadratic double extensions
Oxidative Addition of Aryl Electrophiles to a Prototypical Nickel(0) Complex: Mechanism and Structure/Reactivity Relationships
Detailed kinetic studies of the reaction of a model Ni-0 complex with a range of aryl electrophiles have been conducted. The reactions proceed via a fast ligand exchange pre-equilibrium, followed by oxidative addition to produce either [(NiX)-X-I(dppf)] (and biaryl) or [Ni-II(Ar)X(dppf)]; the ortho substituent of the aryl halide determines selectivity between these possibilities. A reactivity scale is presented in which a range of substrates is quantitatively ranked in order of the rate at which they undergo oxidative addition. The rate of oxidative addition is loosely correlated to conversion in prototypical cross-coupling reactions. Substrates that lead to Ni-I products in kinetic experiments conditions. produce more homocoupling products under catalytic conditions
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Evaluation and revision of inferential comprehension in narrative texts: an eye movement study
We investigated the processes of how adult readers evaluate and revise their situation model during reading by monitoring their eye movements as they read narrative texts and subsequent critical sentences. In each narrative text, a short introduction primed a knowledge-based inference, followed by a target concept that was either expected (e.g., âovenâ) or unexpected (e.g., âgrillâ) in relation to the inferred concept. Eye movements showed that readers detected a mismatch between the new unexpected information and their prior interpretation, confirming their ability to evaluate inferential information. Just below the narrative text, a critical sentence included a target word that was either congruent (e.g., âroastedâ) or incongruent (e.g., âbarbecuedâ) with the expected but not the unexpected concept. Readers spent less time reading the congruent than the incongruent target word, reflecting the facilitation of prior information. In addition, when the unexpected (but not expected) concept had been presented, participants with lower verbal (but not visuospatial) working memory span exhibited longer reading times and made more regressions (from the critical sentence to previous information) on encountering congruent information, indicating difficulty in inhibiting their initial incorrect interpretation and revising their situation mode
Micro-cooler Enhancements by Barrier Interface Analysis
Peer reviewedPublisher PD
Impact ionisation electroluminescence in planar GaAs-based heterostructure Gunn diodes:Spatial distribution and impact of doping nonuniformities
When biased in the negative differential resistance regime, electroluminescence (EL) is emitted from planar GaAs heterostructure Gunn diodes. This EL is due to the recombination of electrons in the device channel with holes that are generated by impact ionisation when the Gunn domains reach the anode edge. The EL forms non-uniform patterns whose intensity shows short-range intensity variations in the direction parallel to the contacts and decreases along the device channel towards the cathode. This paper employs Monte Carlo models, in conjunction with the experimental data, to analyse these non-uniform EL patterns and to study the carrier dynamics responsible for them. It is found that the short-range lateral (i.e., parallel to the device contacts) EL patterns are probably due to non-uniformities in the doping of the anode contact, illustrating the usefulness of EL analysis on the detection of such inhomogeneities. The overall decreasing EL intensity towards the anode is also discussed in terms of the interaction of holes with the time-dependent electric field due to the transit of the Gunn domains. Due to their lower relative mobility and the low electric field outside of the Gunn domain, freshly generated holes remain close to the anode until the arrival of a new domain accelerates them towards the cathode. When the average over the transit of several Gunn domains is considered, this results in a higher hole density, and hence a higher EL intensity, next to the anode
Theta oscillations show impaired interference detection in older adults during selective memory retrieval
Seemingly effortless tasks, such as recognizing faces and retrieving names, become harder as we age.
Such difficulties may be due to the competition generated in memory by irrelevant information that
comes to mind when trying to recall a specific face or name. It is unknown, however, whether agerelated
struggles in retrieving these representations stem from an inability to detect competition in
the first place, or from being unable to suppress competing information once interference is detected.
To investigate this, we used the retrieval practice paradigm, shown to elicit memory interference,
while recording electrophysiological activity in young and older adults. In two experiments, young
participants showed Retrieval-Induced Forgetting (RIF), reflecting the suppression of competing
information, whereas older adults did not. Neurally, mid-frontal theta power (~4â8 Hz) during the
first retrieval cycle, a proxy for interference detection, increased in young compared to older adults,
indicating older adults were less capable of detecting interference. Moreover, while theta power was
reduced across practice cycles in younger adults, a measure of interference resolution, older adults
did not show such a reduction. Thus, in contrast with younger adults, the lack of an early interference
detection signal rendered older adults unable to recruit memory selection mechanisms, eliminating RIF.This research was supported by the doctoral research grants AP2009-2215 to C.S.F. and BES-2013-066842
to M.J.M.; by grants PSI2012-33625; PSI2015-65502-C2-1-P from the Spanish Ministry of Economy and
Competiveness, and by the Economic Council of the Andalusian Government P08-HUM-03600-Feder and
P12-CTS-2369-Feder to T.B. S.H. is supported by grants from the European Research Council (grant agreement
NÂș647954), the Economic and Social Research Council (ESRC grant agreement NÂșES/R010072/1), and the
Wolfson Society and Royal Society
An Electromagnetic Study of the Impact of Brain Anatomy on Deep Brain Stimulation
An electromagnetic simulation was performed to assess the volume of tissue activated on deep brain stimulation for two patients randomly selected. The finite element method is used to calculate the electric field distribution that predicts the volume of tissue activated. High-resolution magnetic resonance images are utilized to create patient-specific anatomical models of the subthalamic nucleus and the internal pallidum. The results confirmed the influence of brain anatomy leading to different shape and volume of tissue activated despite similar technical features. Thus, a patient-specific model and an adequate choice of stimulation parameters are crucial on deep brain stimulation outcomes.S
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