947 research outputs found
Status of QCD
I have been asked to discuss the status of QCD. It seems to me that there are
three main points to be made about the present status of QCD: QCD is
right, and we can do many beautiful things with it. There are several
important concrete problems that lie just beyond the edge of our current
understanding. There are some foundational issues in QCD, and some
recent developments, that may point toward entirely new directions. These
points will, I believe, emerge quite clearly from the following more detailed
discussion. The discussion will be in three parts. I'll first discuss
elementary processes, then more complicated processes, and then finally
foundational issues.Comment: 28 pages, use Phyzzx, figures available by FAX or mail on request,
IASSNS-HEP-93/6
Population genetics of abnormal haemoglobins in Burkina Faso, West Africa
Les fréquences géniques des hémoglobines A (HbA), HbS et HbC, ont été étudiées au Burkina-Faso (BF) ainsi que dans une région avoisinante du Niger : Ayorou. La fréquence d'HbS est plus élevée dans le Sahel (Nord du BF et Ayorou) que dans la zone de savane. L'inverse est trouvé pour HbC. Les résultats essentiels de ce travail sont : (a) la confirmation d'un pic de la fréquence génique de HbC dans le centre du BF (plateau Mossi); (b) une corrélation négative entre les fréquences de HbS et HbC. Cavalli-Sforza et Bodmer ont observé que cette corrélation atteint une intensité significativement différente de celle qui est attendue, par suite de la relation allélique entre HbS et HbC; (c) la comparaison de ces résultats avec les données rassemblées par Livingstone montre une modification de la valeur sélective des différents génotypes au cours des dernières années. Les individus AS ont une valeur sélective plus basse et les AA et SS en ont une plus haute. Nos données sont favorables à l'hypothèse du relâchement partiel de la sélection dans cette région. (Résumé d'auteur
New Technologies’ Promise to the Self and the Becoming of the Sacred: Insights from Georges Bataille’s Concept of Transgression
This article draws on Georges Bataille’s concept of transgression, a key element in Bataille’s theory of the sacred, to highlight structural implications of the way the self-empowerment ethos of new technologies suffuses the digital tracking culture. Pointing to the original conceptual stance of transgression, worked out against prohibition, I first argue that, beyond a critique of new technologies’ promise of self-empowerment as coming at the expense of an acknowledgement of the ultimate taboo—death—is the problem of the sanitizing of the tension between the crossing of the line of the symbolic taboo and prohibition; this undermines a “libidinal investment” towards the sacred, which is central in Bataille’s theory. Second, focussing on “eroticism”, since this embodies the emancipative potential of the Bataillean sacred, I argue that while a fear of eroticism marks out the digital technological realm, this is covered up by the blurring of boundaries between pleasure, fun and sex(iness) that currently governs our experience with technological devices
Modelling net-zero emissions energy systems requires a change in approach
Energy modelling can assist national decision makers in determining strategies that
achieve net-zero greenhouse gas (GHG) emissions. However, three key challenges for
the modelling community are emerging under this radical climate target that needs to
be recognized and addressed. A first challenge is the need to represent new mitigation
options not currently represented in many energy models. We emphasize here the
under representation of end-use sector demand-side options due to the traditional
supply side focus of many energy models, along with issues surrounding robustness in
deploying carbon dioxide removal (CDR) options. A second challenge concerns the
types of models used. We highlight doubts about whether current models provide
sufficient relevant insights on system feasibility, actor behaviour, and policy
effectiveness. A third challenge concerns how models are applied for policy analyses.
Priorities include the need for expanding scenario thinking to incorporate a wider
range of uncertainty factors, providing insights on target setting, alignment with
broader policy objectives, and improving engagement and transparency of approaches.
There is a significant risk that without reconsidering energy modelling approaches, the
role that the modelling community can play in providing effective decision support
may be reduced. Such support is critical, as countries seek to develop new Nationally
Determined Contributions and longer-term strategies over the next few years
Modelling net-zero emissions energy systems requires a change in approach
Energy modelling can assist national decision makers in determining strategies that achieve net-zero greenhouse gas (GHG) emissions. However, three key challenges for the modelling community are emerging under this radical climate target that needs to be recognized and addressed. A first challenge is the need to represent new mitigation options not currently represented in many energy models. We emphasize here the under representation of end-use sector demand-side options due to the traditional supply side focus of many energy models, along with issues surrounding robustness in deploying carbon dioxide removal (CDR) options. A second challenge concerns the types of models used. We highlight doubts about whether current models provide sufficient relevant insights on system feasibility, actor behaviour, and policy effectiveness. A third challenge concerns how models are applied for policy analyses. Priorities include the need for expanding scenario thinking to incorporate a wider range of uncertainty factors, providing insights on target setting, alignment with broader policy objectives, and improving engagement and transparency of approaches. There is a significant risk that without reconsidering energy modelling approaches, the role that the modelling community can play in providing effective decision support may be reduced. Such support is critical, as countries seek to develop new Nationally Determined Contributions and longer-term strategies over the next few years
Care in the time of catastrophe: citizenship, community and the ecological imagination
Published without an abstract
Optimization and evaluation of a non-invasive tool for peste des petits ruminants surveillance and control
Peste des petits ruminants (PPR) is a highly contagious and devastating viral disease affecting mainly sheep and goats, but also a large number of wild species within the order Artiodactyla. A better understanding of PPR transmission dynamics in multi-host systems is necessary to efficiently control the disease, in particular where wildlife and livestock co-occur. Notably, the role of wildlife in PPR epidemiology is still not clearly understood. Non-invasive strategies to detect PPR infection without the need for animal handling could greatly facilitate research on PPR epidemiology and management of the disease in atypical hosts and in complex field situations. Here, we describe optimized methods for the direct detection of PPR virus genetic material and antigen in fecal samples. We use these methods to determine the detection window of PPR in fecal samples, and compare the sensitivity of these methods to standard invasive sampling and PPR diagnostic methods using field samples collected at a wildlife-livestock interface in Africa. Our results show that quantitative reverse transcription PCR (RT-QPCR) amplification of PPRV from fecal swabs has good sensitivity in comparison to ocular swabs. Animals infected by PPRV could be identified relatively early on and during the whole course of infection based on fecal samples using RT-QPCR. Partial gene sequences could also be retrieved in some cases, from both fecal and ocular samples, providing important information about virus origin and relatedness to other PPRV strains. Non-invasive strategies for PPRV surveillance could provide important data to fill major gaps in our knowledge of the multi-host PPR epidemiology
Unknown Primary Melanoma: Worldwide Survey on Clinical Management
Background: How to deal with melanoma of unknown primary (MUP) origin is a debated topic in the literature. Objective: We performed a worldwide survey to inquire what clinical and investigational workup is performed as well as the physicians' perception of this disease. Methods: A questionnaire was sent via mail to clinicians involved in melanoma care from December 2015 to April 2016 using the International Dermoscopy Society website. Results: 119 physicians from 47 different countries answered the questionnaire. The most reported examination was skin examination followed by CT and/or PET scans. All the participants declared asking about previous excisions of skin lesions with 81% of them asking for a histopathological slide review of previous biopsies. Half of the participants checked for a possible vitiligo phenomenon that may explain regression of the primary lesion. BRAF, cKIT, and GNAQ mutations were screened by 32% of participants. The majority of participants (76%) applied the same treatment protocols for MUP as patients with known primary melanomas of the same AJCC stage. Conclusion: Strong heterogeneity was found between physicians dealing with MUP. Thus, a consensus document should be strongly encouraged
The Saffman-Taylor problem on a sphere
The Saffman-Taylor problem addresses the morphological instability of an
interface separating two immiscible, viscous fluids when they move in a narrow
gap between two flat parallel plates (Hele-Shaw cell). In this work, we extend
the classic Saffman-Taylor situation, by considering the flow between two
curved, closely spaced, concentric spheres (spherical Hele-Shaw cell). We
derive the mode-coupling differential equation for the interface perturbation
amplitudes and study both linear and nonlinear flow regimes. The effect of the
spherical cell (positive) spatial curvature on the shape of the interfacial
patterns is investigated. We show that stability properties of the fluid-fluid
interface are sensitive to the curvature of the surface. In particular, it is
found that positive spatial curvature inhibits finger tip-splitting. Hele-Shaw
flow on weakly negative, curved surfaces is briefly discussed.Comment: 26 pages, 4 figures, RevTex, accepted for publication in Phys. Rev.
Seismicity and geometry of the south Chilean subduction zone (41.5°S-43.5°S): Implications for controlling parameters
In 2005 an amphibious seismic network was deployed on the Chilean forearc between 41.75°S and 43.25°S. 364 local events were observed in a 11-month period. A subset of the P and S arrival times were inverted for hypocentral coordinates, 1-D velocity structure and station delays. Main seismic activity occurred predominantly in a belt parallel to the coast of Chiloé Island in a depth range of 12–30 km presumably related to the plate interface. The 30° inclination of the shallow part of the Wadati-Benioff zone is similar to observations further north indicating that oceanic plate age is not controlling the subduction angle of the shallower part for the Chilean subduction zone. The down-dip termination of abundant intermediate depth seismicity at approximately 70 km depth seems to be related to the young age (and high temperature) of the oceanic plate. Crustal seismicity is associated with the Liquiñe-Ofqui fault zone and active volcanoes
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