2,745 research outputs found
A strategy for the design of skyrmion racetrack memories
Magnetic storage based on racetrack memory is very promising for the design
of ultra-dense, low-cost and low-power storage technology. Information can be
coded in a magnetic region between two domain walls or, as predicted recently,
in topological magnetic objects known as skyrmions. Here, we show the
technological advantages and limitations of using Bloch and Neel skyrmions
manipulated by spin current generated within the ferromagnet or via the
spin-Hall effect arising from a non-magnetic heavy metal underlayer. We found
that the Neel skyrmion moved by the spin-Hall effect is a very promising
strategy for technological implementation of the next generation of skyrmion
racetrack memories (zero field, high thermal stability, and ultra-dense
storage). We employed micromagnetics reinforced with an analytical formulation
of skyrmion dynamics that we developed from the Thiele equation. We identified
that the excitation, at high currents, of a breathing mode of the skyrmion
limits the maximal velocity of the memory
Nurse Burnout and Implementation of Stress Relieving Techniques
Nurse burnout can be defined as the emotional, physical and mental strain that the profession of nursing has on the nurse; leading to dissatisfaction with their job and their ability to practice (âNurse Burnoutâ, 2019). Unfortunately, nurse burnout is prevalent throughout healthcare institutions. Burned out nurses are more prone to making medication and other patient related errors. Thus, an increase in the amount of nurses experiencing burnout can be a strong indicator of the decrease in the number of safe and effective nurses there are practicing at any given time within an institution. (Isa, et al., 219). Burnout can affect nurses of all backgrounds and specialties. There are lots of factors that contribute to the burnout that many nurses experience. Some of these things include the personal, emotional and social aspects of their lives and; not to mention the inherent duties that come with the profession
Using experimental research designs to explore the scope of cumulative culture in humans and other animals
In humans, cultural evolutionary processes are capable of shaping our cognition, because the conceptual tools we learn from others enable mental feats which otherwise would be beyond our capabilities. This is possible because human culture supports the inter-generational accumulation of skills and knowledge, such that later generations can benefit from the experience and exploration efforts of their predecessors. However, it remains unclear how exactly human social transmission supports the accumulation of advantageous traits, and why we see little evidence of this in the natural behaviour of other species. Thus, it is difficult to know whether the cognitive abilities of other animals might be similarly scaffolded by processes of cultural evolution. In this article I discuss how experimental studies of cultural evolution have contributed to our understanding of human cumulative culture, as well as some of the limitations of these approaches. I also discuss how similar research designs can be used to evaluate the potential for cumulative culture in other species. Such research may be able to clarify what distinguishes human cumulative culture from related phenomena in nonhumans, shedding light on the issue of whether other species also have the potential to develop cognitive capacities that are outcomes of cultural evolution
Single-ion anisotropy and magnetic field response in the spin-ice materials Ho2Ti2 O7 and Dy2Ti2 O7
Motivated by its role as a central pillar of current theories of dynamics of
spin ice in and out of equilibrium, we study the single-ion dynamics of the
magnetic rare earth ions in their local environments, subject to the effective
fields set up by the magnetic moments they interact with. This effective field
has a transverse component with respect to the local easy-axis of the crystal
electric field, which can induce quantum tunnelling. We go beyond the
projective spin-1/2 picture and use instead the full crystal-field Hamiltonian.
We find that the Kramers vs non-Kramers nature, as well as the symmetries of
the crystal-field Hamiltonian, result in different perturbative behaviour at
small fields ( T), with transverse field effects being more
pronounced in HoTiO than in DyTiO.
Remarkably, the energy splitting range we find is consistent with time scales
extracted from experiments. We also present a study of the static magnetic
response which highlights the anisotropy of the system in the form of an
off-diagonal tensor and we investigate the effects of thermal fluctuations
in the temperature regime of relevance to experiments. We show that there is a
narrow yet accessible window of experimental parameters where the anisotropic
response can be observed.EPSRC, STFC, HEFCE, SEPnetThis is the author accepted manuscript. The final version is available from the American Physical Society via http://dx.doi.org/10.1103/PhysRevB.92.15512
An Enhanced Fractional Order Model of Ionic Polymer-Metal Composites Actuator
Ionic polymer-metal composites (IPMCs) are electroactive polymers which transform the mechanical forces into electric signals and vice versa. The paper proposes an enhanced fractional order transfer function (FOTF) model for IPMC membrane working as actuator. In particular the IPMC model has been characterized through experimentation, and a more detailed structure of its FOTF has been determined via optimization routines. The minimization error was attained comparing the simple genetic algorithms with the simplex method and considering the error between the experimental and model derived frequency responses as cost functions
Recruitment of visual cortex for language processing in blind individuals: A neurobiological model
After sensory deprivation, the visual cortex is functionally recruited into non-visual cognitive language and semantic processing. Why this functional organization takes place and how its underlying mechanisms work at the neuronal circuit level is still unclear. Here, we use a biologically constrained network model implementing anatomical structure, neurophysiological function and connectivity of the fronto-tempo-occipital cortex to simulate word-meaning acquisition in visually deprived and undeprived (âhealthy controlâ) brains. Whereas in the âundeprivedâ simulations only words denoting visual entities grew into the visual domain, the âblindâ models unexpectedly produced word-related neuronal circuits extending into visual cortex for all semantic categories (and especially for those carrying action-related meaning). Additionally, during word recognition, the blind model showed long-lasting spiking neural activity compared to the sighted model, a sign for enhanced verbal working memory due to the additional neural recruitment. Three factors are crucial for explaining this deprivation-related growth: (i) changes in the networkâs activity balance brought about by the absence of uncorrelated sensory input, (ii) the connectivity structure of the network, and (iii) Hebbian correlation learning. By offering a neurobiological account for neural changes of language processing due to visual deprivation, our model bridges the gap between cellular-level mechanisms and system-level language function in blind humans
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