533 research outputs found
Fabrication of FeSi and Fe3Si compounds by electron beam induced mixing of [Fe/Si]2 and [Fe3/Si]2 multilayers grown by focused electron beam induced deposition
Fe-Si binary compounds have been fabricated by focused electron beam induced
deposition by the alternating use of iron pentacarbonyl, Fe(CO)5, and
neopentasilane, Si5H12 as precursor gases. The fabrication procedure consisted
in preparing multilayer structures which were treated by low-energy electron
irradiation and annealing to induce atomic species intermixing. In this way we
are able to fabricate FeSi and Fe3Si binary compounds from [Fe=Si]2 and
[Fe3=Si]2 multilayers, as shown by transmission electron microscopy
investigations. This fabrication procedure is useful to obtain nanostructured
binary alloys from precursors which compete for adsorption sites during growth
and, therefore, cannot be used simultaneously
Consequences of Serotonin Transporter Genotype and Early Adversity on Behavioral Profile â Pathology or Adaptation?
This review focuses on how behavioral profile is shaped by early adversity in individuals with varying serotonin transporter (5-HTT) genotype. In a recent study on 5-HTT knockout mice Heiming et al. (2009) simulated a âdangerous environmentâ by confronting pregnant and lactating females with odor cues of unfamiliar males, indicating the risk of infant killing. Growing up in a dangerous environment induced increased anxiety-related behavior and decreased exploratory locomotion in the offspring, the effects being most pronounced in mice lacking 5-HTT expression. We argue that these alterations in behavioral profile represent adaptive maternal effects that help the individuals to cope with adversity. In principle, such effects of adversity on behavioral profile should not automatically be regarded as pathological. Rather and in accordance with modern evolutionary theory they may represent adaptations, although individuals with 5-HTT genotype induced susceptibility to adversity may be at risk of developing pathologies
Tunable magnetism on the lateral mesoscale by post-processing of Co/Pt heterostructures
Controlling magnetic properties on the nm-scale is essential for basic
research in micro-magnetism and spin-dependent transport, as well as for
various applications such as magnetic recording, imaging and sensing. This has
been accomplished to a very high degree by means of layered heterostructures in
the vertical dimension. Here we present a complementary approach that allows
for a controlled tuning of the magnetic properties of Co/Pt heterostructures on
the lateral mesoscale. By means of in-situ post-processing of Pt- and Co-based
nano-stripes prepared by focused electron beam induced deposition (FEBID) we
are able to locally tune their coercive field and remanent magnetization.
Whereas single Co-FEBID nano-stripes show no hysteresis, we find hard-magnetic
behavior for post-processed Co/Pt nano-stripes with coercive fields up to 850
Oe. We attribute the observed effects to the locally controlled formation of
the CoPt L1 phase, whose presence has been revealed by transmission
electron microscopy.Comment: Accepted for publication in Beilstein J. Nanotechno
Dimensions of Animal Personalities in Guinea Pigs
Zipser B, Kaiser S, Sachser N. Dimensions of Animal Personalities in Guinea Pigs. Ethology. 2013;119(11):970-982
Wild genius - domestic fool? Spatial learning abilities of wild and domestic guinea pigs
<p>Abstract</p> <p>Background</p> <p>Domestic animals and their wild relatives differ in a wide variety of aspects. The process of domestication of the domestic guinea pig (<it>Cavia aperea </it>f. <it>porcellus</it>), starting at least 4500 years ago, led to changes in the anatomy, physiology, and behaviour compared with their wild relative, the wild cavy, <it>Cavia aperea</it>. Although domestic guinea pigs are widely used as a laboratory animal, learning and memory capabilities are often disregarded as being very scarce. Even less is known about learning and memory of wild cavies. In this regard, one striking domestic trait is a reduction in relative brain size, which in the domesticated form of the guinea pig amounts to 13%. However, the common belief, that such a reduction of brain size in the course of domestication of different species is accomplished by less learning capabilities is not at all very well established in the literature. Indeed, domestic animals might also even outperform their wild conspecifics taking advantage of their adaptation to a man-made environment.</p> <p>In our study we compared the spatial learning abilities of wild and domestic guinea pigs. We expected that the two forms are different regarding their learning performance possibly related to the process of domestication. Therefore wild cavies as well as domestic guinea pigs of both sexes, aged 35 to 45 days, were tested in the Morris water maze to investigate their ability of spatial learning.</p> <p>Results</p> <p>Both, wild cavies and domestic guinea pigs were able to learn the task, proving the water maze to be a suitable test also for wild cavies. Regarding the speed of learning, male as well as female domestic guinea pigs outperformed their wild conspecifics significantly. Interestingly, only domestic guinea pigs showed a significant spatial association of the platform position, while other effective search strategies were used by wild cavies.</p> <p>Conclusion</p> <p>The results demonstrate that domestic guinea pigs do not at all perform worse than their wild relatives in tests of spatial learning abilities. Yet, the contrary seems to be true. Hence, artificial selection and breeding did not lead to a cognitive decline but rather to an adaptation to man-made environment that allows solving the task more efficiently.</p
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