Turbulent superfluid profiles in a counterflow channel

We have developed a two-dimensional model of quantised vortices in helium II moving under the influence of applied normal fluid and superfluid in a counterflow channel. We predict superfluid and vortex-line density profiles which could be experimentally tested using recently developed visualization techniques.Comment: 3 double figures, 9 page

Diverse perspectives on interdisciplinarity from members of the college of the Royal Society of Canada

Various multiple-disciplinary terms and concepts (although most commonly “interdisciplinarity,” which is used herein) are used to frame education, scholarship, research, and interactions within and outside academia. In principle, the premise of interdisciplinarity may appear to have many strengths; yet, the extent to which interdisciplinarity is embraced by the current generation of academics, the benefits and risks for doing so, and the barriers and facilitators to achieving interdisciplinarity, represent inherent challenges. Much has been written on the topic of interdisciplinarity, but to our knowledge there have been few attempts to consider and present diverse perspectives from scholars, artists, and scientists in a cohesive manner. As a team of 57 members from the Canadian College of New Scholars, Artists, and Scientists of the Royal Society of Canada (the College) who self-identify as being engaged or interested in interdisciplinarity, we provide diverse intellectual, cultural, and social perspectives. The goal of this paper is to share our collective wisdom on this topic with the broader community and to stimulate discourse and debate on the merits and challenges associated with interdisciplinarity. Perhaps the clearest message emerging from this exercise is that working across established boundaries of scholarly communities is rewarding, necessary, and is more likely to result in impact. However, there are barriers that limit the ease with which this can occur (e.g., lack of institutional structures and funding to facilitate cross-disciplinary exploration). Occasionally, there can be significant risk associated with doing interdisciplinary work (e.g., lack of adequate measurement or recognition of work by disciplinary peers). Solving many of the world’s complex and pressing problems (e.g., climate change, sustainable agriculture, the burden of chronic disease, and aging populations) demands thinking and working across long-standing, but in some ways restrictive, academic boundaries. Academic institutions and key support structures, especially funding bodies, will play an important role in helping to realize what is readily apparent to all who contributed to this paper—that interdisciplinarity is essential for solving complex problems; it is the new norm. Failure to empower and encourage those doing this research will serve as a great impediment to training, knowledge, and addressing societal issues

SELF-PRESERVING STRUCTURES IN HOMOGENEOUS SUPERFLUID TURBULENCE

La force de frottement mutuel dans le contrecourant thermique d'He II a été expliquée par Vinen dans un modèle de la turbulence superfluide. Ce modèle a été appliqué avec succès à plusieurs phénomènes de contrecourant. Nous avons essayé d'examiner l'homogéneité de la turbulence en faisant des comparaisons entre ces gradients de température et les vitesses critiques dans des canaux de contrecourant circulaires et rectangulaires. Les résultats suggèrent que la turbulence est homogène mais que chaque configuration géométrique possède sa propre structure self-entraînante.The mutual friction force in He II thermal counterflow has been accounted for by Vinen in a model for superfluid turbulence. The model has been successfully applied to a number of counterflow phenomena. We have attempted to examine the homogeneity of the turbulence by comparing temperature gradients and critical velocities from circular and rectangular counterflow channels. The data suggest the turbulence is homogeneous, but that each geometry possesses a different self-sustaining structure

Cholinesterase Inhibitors for Alzheimer Disease: Multitargeting Strategy based on Anti-Alzheimer's Drugs Repositioning

International audienceIn the brain, acetylcholine (ACh) is regarded as one of the major neurotransmitters. During the advancement of Alzheimer's disease (AD) cholinergic deficits occur and this can lead to extensive cognitive dysfunction and decline. Acetylcholinesterase (AChE) remains a highly feasible target for the symptomatic improvement of AD. Acetylcholinesterase (AChE) remains a highly viable target for the symptomatic improvementin AD because cholinergic deficit is a consistent and early finding in AD. The treatment approach of inhibitingperipheral AChE for myasthenia gravis had effectively proven that AChE inhibition was a reachable therapeutictarget. Subsequently tacrine, donepezil, rivastigmine, and galantamine were developed and approved for thesymptomatic treatment of AD. Since then, multiple cholinesterase inhibitors (ChEIs) have been continued to bedeveloped. These include newer ChEIs, naturally derived ChEIs, hybrids, and synthetic analogues. In this paper,we summarize the different types of ChEIs which are under development and their respective mechanisms ofactions