502 research outputs found
Possible chromospheric activity cycles in II Peg, UX Ari and V711 Tau
We study the Mount Wilson indices we obtained indirectly from IUE high and
low resolution spectra of the RS CVn-type systems II Peg (K2IV), UX Ari
(K0IV+G5V) and V711 Tau (K1IV+G5V), extensively observed by IUE from 1978 to
1996. We analyze the activity signatures, which correspond to the primary star,
with the Lomb-Scargle periodogram. From the analysis of V711 Tau data, we found
a possible chromospheric cycle with a period of 18 years and a shorter near
3-year cycle, which could be associated to a chromospheric flip-flop cycle. The
data of II Peg also suggest a chromospheric cycle of near 21 years and a
flip-flop cycle of 9 years approximately. Finally, we obtained a possible
chromospheric cycle of near 6 years for UX Ari.Comment: 4 pages, to appear in proceedings of Cool Stars 1
Possible chromospheric activity cycles in AD Leo
AD Leo (GJ 388) is an active dM3 flare star extensively observed both in the
quiescent and flaring states. Since this active star is near the
fully-convective boundary, to study in detail its long-term chromospheric
activity could be an appreciable contribution for the dynamo theory. Here, we
analyze with the Lomb-Scargle periodogram the Ca II K line-core fluxes derived
from CASLEO spectra obtained between 2001 and 2013 and the V magnitude from the
ASAS database between 2004 and 2010. From both totally independent time-series,
we obtain a possible activity cycle of period years and a
less-significant shorter one of years. A tentative interpretation is
that a dynamo operating near the surface could be generating the longer cycle,
while a second dynamo operating in the deep convection zone could be
responsible for the shorter one. Based on the long duration of our observing
program at CASLEO and the fact that we observe simultaneously different
spectral features, we also analyze the relation between simultaneous
measurements of the Na I index (), H and Ca II K fluxes
at different activity levels of AD Leo, including flares.Comment: 21 pages, 3 figures.Accepted for publication in ApJ
Evidence for the Concreteness of Abstract Language: A Meta-Analysis of Neuroimaging Studies
The neural mechanisms subserving the processing of abstract concepts remain largely debated. Even within the embodiment theoretical framework, most authors suggest that abstract concepts are coded in a linguistic propositional format, although they do not completely deny the role of sensorimotor and emotional experiences in coding it. To our knowledge, only one recent proposal puts forward that the processing of concrete and abstract concepts relies on the same mechanisms, with the only difference being in the complexity of the underlying experiences. In this paper, we performed a meta-analysis using the Activation Likelihood Estimates (ALE) method on 33 functional neuroimaging studies that considered activations related to abstract and concrete concepts. The results suggest that (1) concrete and abstract concepts share the recruitment of the temporo-fronto-parietal circuits normally involved in the interactions with the physical world, (2) processing concrete concepts recruits fronto-parietal areas better than abstract concepts, and (3) abstract concepts recruit Broca’s region more strongly than concrete ones. Based on anatomical and physiological evidence, Broca’s region is not only a linguistic region mainly devoted to speech production, but it is endowed with complex motor representations of different biological effectors. Hence, we propose that the stronger recruitment of this region for abstract concepts is expression of the complex sensorimotor experiences underlying it, rather than evidence of a purely linguistic format of its processing
Ultraviolet Radiation Constraints around the Circumstellar Habitable Zones
Ultraviolet radiation is known to inhibit photosynthesis, induce DNA
destruction and cause damage to a wide variety of proteins and lipids. In
particular, UV radiation between 200-300 nm becomes energetically very damaging
to most of the terrestrial biological systems. On the other hand, UV radiation
is usually considered one of the most important energy source on the primitive
Earth for the synthesis of many biochemical compounds and, therefore, essential
for several biogenesis processes. In this work, we use these properties of the
UV radiation to define the bounderies of an ultraviolet habitable zone. We also
analyze the evolution of the UV habitable zone during the main sequence stage
of the star. We apply these criteria to study the UV habitable zone for those
extrasolar planetary systems that were observed by the International
Ultraviolet Explorer (IUE). We analyze the possibility that extrasolar planets
and moons could be suitable for life, according to the UV constrains presented
in this work and other accepted criteria of habitability (liquid water, orbital
stability, etc.).Comment: 34 pages, 8 figures Accepted for publication by Icaru
The Semantics of Natural Objects and Tools in the Brain: A Combined Behavioral and MEG Study
Current literature supports the notion that the recognition of objects, when visually pre-sented, is sub-served by neural structures different from those responsible for the semantic processing of their nouns. However, embodiment foresees that processing observed objects and their verbal labels should share similar neural mechanisms. In a combined behavioral and MEG study, we com-pared the modulation of motor responses and cortical rhythms during the processing of graspable natural objects and tools, either verbally or pictorially presented. Our findings demonstrate that conveying meaning to an observed object or processing its noun similarly modulates both motor responses and cortical rhythms; being natural graspable objects and tools differently represented in the brain, they affect in a different manner both behavioral and MEG findings, independent of presentation modality. These results provide experimental evidence that neural substrates responsible for conveying meaning to objects overlap with those where the object is represented, thus supporting an embodied view of semantic processing
Grasping the semantic of actions: a combined behavioral and MEG study
There is experimental evidence that the brain systems involved in action execution also play a role in action observation and understanding. Recently, it has been suggested that the sensorimotor system is also involved in language processing. Supporting results are slower response times and weaker motor-related MEG Beta band power suppression in semantic decision tasks on single action verbs labels when the stimulus and the motor response involve the same effector. Attenuated power suppression indicates decreased cortical excitability and consequent decreased readiness to act. The embodied approach forwards that the simultaneous involvement of the sensorimotor system in the processing of the linguistic content and in the planning of the response determines this language-motor interference effect. Here, in a combined behavioral and MEG study we investigated to what extent the processing of actions visually presented (i.e., pictures of actions) and verbally described (i.e., verbs in written words) share common neural mechanisms. The findings demonstrated that, whether an action is experienced visually or verbally, its processing engages the sensorimotor system in a comparable way. These results provide further support to the embodied view of semantic processing, suggesting that this process is independent from the modality of presentation of the stimulus, including language
Solar Forcing of the Streamflow of a Continental Scale South American River
Solar forcing on climate has been reported in several studies although the
evidence so far remains inconclusive. Here, we analyze the stream flow of one
of the largest rivers in the world, the Parana in southeastern South America.
For the last century, we find a strong correlation with the sunspot number, in
multidecadal time scales, and with larger solar activity corresponding to
larger stream flow. The correlation coefficient is r=0.78, significant to a 99%
level. In shorter time scales we find a strong correlation with El Nino. These
results are a step toward flood prediction, which might have great social and
economic impacts.Comment: 4 pages, 3 figures, published in Physics and Review Letter
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