53,605 research outputs found
Fiscal decentralization and development: How crucial is local politics?
Does fiscal decentralization in a politically decentralized less developed country help strengthen democratic institutions at the grass root level? And is the impact of such decentralization on local politics important in determining local development? Our study on Indonesia suggests that fiscal decentralization enhanced free and fair local elections, though the incidence of elite capture, and the consequent breakdown of local democracy, was also present in significant proportions. Fiscal decentralization promoted development mostly in communities which transited out from elite capture to embrace free and fair elections. This was followed by communities that experienced the emergence of elite capture. Communities that continued to remain under either elite capture or free and fair elections did the worst. These findings suggest that while the emergence of elite capture exists, it may not necessarily
be the most harmful. Instead, and surprisingly so, stability of local polity hurts development the most
Supergravity approach to tachyon condensation on the brane-antibrane system
We study the tachyon condensation on the D-brane--antiD-brane system from the
supergravity point of view. The non-supersymmetric supergravity solutions with
symmetry ISO() SO() are known to be characterized by three
parameters. By interpreting this solution as coincident D-branes and
-branes we give, for the first time, an explicit
representation of the three parameters of supergravity solutions in terms of
and the tachyon vev. We demonstrate that the solution and the
corresponding ADM mass capture all the required properties and give a correct
description of the tachyon condensation advocated by Sen on the
D-brane--antiD-brane system.Comment: 9 page
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Strategies for successful field deployment in a resource-poor region: Arsenic remediation technology for drinking water
Strong long-term international partnership in science, technology, finance and policy is critical for sustainable field experiments leading to successful commercial deployment of novel technology at community-scale. Although technologies already exist that can remediate arsenic in groundwater, most are too expensive or too complicated to operate on a sustained basis in resource-poor communities with the low technical skill common in rural South Asia. To address this specific problem, researchers at University of California-Berkeley (UCB) and Lawrence Berkeley National Laboratory (LBNL) invented a technology in 2006 called electrochemical arsenic remediation (ECAR). Since 2010, researchers at UCB and LBNL have collaborated with Global Change Program of Jadavpur University (GCP-JU) in West Bengal, India for its social embedding alongside a local private industry group, and with financial support from the Indo-US Technology Forum (IUSSTF) over 2012–2017. During the first 10 months of pilot plant operation (April 2016 to January 2017) a total of 540 m3 (540,000 L) of arsenic-safe water was produced, consistently and reliably reducing arsenic concentrations from initial 252 ± 29 to final 2.9 ± 1 parts per billion (ppb). This paper presents the critical strategies in taking a technology from a lab in the USA to the field in India for commercialization to address the technical, socio-economic, and political aspects of the arsenic public health crisis while targeting several sustainable development goals (SDGs). The lessons learned highlight the significance of designing a technology contextually, bridging the knowledge divide, supporting local livelihoods, and complying with local regulations within a defined Critical Effort Zone period with financial support from an insightful funding source focused on maturing inventions and turning them into novel technologies for commercial scale-up. Along the way, building trust with the community through repetitive direct interactions, and communication by the scientists, proved vital for bridging the technology-society gap at a critical stage of technology deployment. The information presented here fills a knowledge gap regarding successful case studies in which the arsenic remediation technology obtains social acceptance and sustains technical performance over time, while operating with financial viability
Black holes and wormholes in AdS branes
In this work we have derived a class of geometries which describe black holes
and wormholes in Randall-Sundrum-type brane models, focusing mainly on
asymptotically anti-de Sitter backgrounds. We show that by continuously
deforming the usual four dimensional vacuum background, a specific family of
solutions is obtained. Maximal extensions of the solutions are presented, and
their causal structures are discussed.Comment: 7 pages, 4 figures. Published version in Physical Review
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