50 research outputs found
Controle Local na era de responsabilidades: Um caso de estudo de pré-escola infantil (preK) em Wisconsin
The opposing principles of local control and increased standardization are a prominent tension in the United States’ education system. Since at least the early 1990s, this tension has taken shape around the accountability movement, defined by educational reforms that hold schools, teachers, and students accountable for performance on new standards, assessments, and curricula. While many scholars have examined the manifestations of the current accountability movement, few have looked at this phenomenon within the growing public preK movement. Drawing from interviews with state policymakers and district-level actors, this paper describes how the seemingly contradictory principles of local control and increased state and national standards (what we refer to simply as standardization) are shaping the policy and practice of Wisconsin’s preK system, known as 4K. We argue that rational models of policy making fail to explain the coexistence and blending of the strands of local control and standardization we found in our data, and suggest that Deborah Stone’s (2001) policy paradox provides a better theoretical framework for our findings.Los principios opuestos al control local y el aumentado de exámenes estandarizados han causado bastante tensión en el sistema de educación en los Estados Unidos. Desde el inicio del 1990, esta tensión ha tomado forma alrededor del movimiento de responsabilidad, que se distingue por las reformas educativas que tratan de asumir la responsabilidad a las escuelas, los profesores y estudiantes sobre las nuevas normas, evaluaciones y planes de estudio. Mientras muchos han examinado las manifestaciones del movimiento de la responsabilidad actual, pocos han observado este fenómeno que va creciendo dentro del movimiento preescolar (preK). Usando entrevistas con diseñadores de políticas de estado y autores a nivel del distrito, en este artículo se describe cómo aparentemente se contradicen los principios de control local y se aumentan las pólices estándares, nacionales y estatales (las que nos referimos simplemente como la estandarización) son mol-da la política y la práctica del sistema de pre-escolar (preK) de Wisconsin, conocido como "4K". Nuestro argumento es que los modelos racionales de la formulación de políticas fallan al explicar la convivencia y la mezcla de aspectos de control local y la paradoja política que encontramos en nuestros datos, sugieren que la política de Deborah Stone (2011) proporciona una mejor estructura teórico para nuestras recomendaciones.Os princípios opostos de controle local e o aumento na padronização são uma tensão proeminente no sistema de ensino dos Estados Unidos. Pelo menos desde o início dos anos 1990, essa tensão tem tomado forma em torno do movimento de responsabilidade, definido por reformas educacionais que sustentam escolas, professores, e estudantes responsáveis pelo desempenho de novos padrões, avaliações e currículos. Enquanto muitos estudiosos têm examinado as manifestações do atual movimento de responsabilização, poucos têm olhado para esse fenômeno dentro do crescimento público do movimento pré-escolar infantil (preK). Tomando de entrevistas com formuladores de políticas estatais e autores de nível distrital, este artigo descreve como princípios aparentemente contraditórios de controle local e o aumento de padrões nacionais e estatais (o que nos referimos simplesmente como padronização) estão moldando a política e a prática do sistema de pré-escola infantil (preK) de Wisconsin, conhecido como “4K”. Defendemos que os modelos racionais de formulação de políticas falham em explicar a coexistência e mistura dos fios de controle local e padronização que encontramos em nossos dados, e sugerem que o paradoxo da política de Deborah Stone (2011) proporciona uma melhor estrutura teórica para as nossas descobertas
Network sensitivity of systemic risk
A growing body of studies on systemic risk in financial markets has emphasized the key importance of taking into consideration the complex interconnections among financial institutions. Much effort has been put into modeling the contagion dynamics of financial shocks and into assessing the resilience of specific financial markets, either using real network data, reconstruction techniques or simple toy networks. Here, we address the more general problem of how shock propagation dynamics depend on the topological details of the underlying network. To this end, we consider different realistic network topologies, all consistent with balance sheet information obtained from real data on financial institutions. In particular, we consider networks of varying density and with different block structures. In addition, we diversify in the details of the shock propagation dynamics. We confirm that the systemic risk properties of a financial network are extremely sensitive to its network features. Our results can aid in the design of regulatory policies to improve the robustness of financial markets
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Instrumentation for the proposed low energy RHIC electron Cooling project
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EBIS preinjector construction status
A new heavy ion preinjector is presently under construction at Brookhaven National Laboratory. This preinjector uses an Electron Beam Ion Source (EBIS), and an WQ and IH Linac, both operating at 100.625 MHz, to produce 2 MeV/u ions of any species for use, after further acceleration, at the Relativistic Heavy Ion Collider, and the NASA Space Radiation Laboratory. Among the increased capabilities provided by this preinjector are the ability to produce ions of any species, and the ability to switch between multiple species in 1 second, to simultaneously meet the needs of both physics programs. Fabrication of all major components for this preinjector is in process, with testing of the EBIS and WQ starting this year. The status of this construction is presented
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RHIC Performance for FY2011 Au+Au Heavy Ion Run
Following the Fiscal Year (FY) 2010 (Run-10) Relativistic Heavy Ion Collider (RHIC) Au+Au run, RHIC experiment upgrades sought to improve detector capabilities. In turn, accelerator improvements were made to improve the luminosity available to the experiments for this run (Run-11). These improvements included: a redesign of the stochastic cooling systems for improved reliability; a relocation of 'common' RF cavities to alleviate intensity limits due to beam loading; and an improved usage of feedback systems to control orbit, tune and coupling during energy ramps as well as while colliding at top energy. We present an overview of changes to the Collider and review the performance of the collider with respect to instantaneous and integrated luminosity goals. At the conclusion of the FY 2011 polarized proton run, preparations for heavy ion run proceeded on April 18, with Au+Au collisions continuing through June 28. Our standard operations at 100 GeV/nucleon beam energy was bracketed by two shorter periods of collisions at lower energies (9.8 and 13.5 GeV/nucleon), continuing a previously established program of low and medium energy runs. Table 1 summarizes our history of heavy ion operations at RHIC