36,224 research outputs found
Open Access Scientometrics and the UK Research Assessment Exercise
Scientometric predictors of research performance need to be validated by showing that they have a high correlation with the external criterion they are trying to predict. The UK Research Assessment Exercise (RAE) -- together with the growing movement toward making the full-texts of research articles freely available on the web -- offer a unique opportunity to test and validate a wealth of old and new scientometric predictors, through multiple regression analysis: Publications, journal impact factors, citations, co-citations, citation chronometrics (age, growth, latency to peak, decay rate), hub/authority scores, h-index, prior funding, student counts, co-authorship scores, endogamy/exogamy, textual proximity, download/co-downloads and their chronometrics, etc. can all be tested and validated jointly, discipline by discipline, against their RAE panel rankings in the forthcoming parallel panel-based and metric RAE in 2008. The weights of each predictor can be calibrated to maximize the joint correlation with the rankings. Open Access Scientometrics will provide powerful new means of navigating, evaluating, predicting and analyzing the growing Open Access database, as well as powerful incentives for making it grow faster
Imprecise Probability and Chance
Understanding probabilities as something other than point values (e.g., as intervals) has often been motivated by the need to find more realistic models for degree of belief, and in particular the idea that degree of belief should have an objective basis in “statistical knowledge of the world.” I offer here another motivation growing out of efforts to understand how chance evolves as a function of time. If the world is “chancy” in that there are non-trivial, objective, physical probabilities at the macro-level, then the chance of an event e that happens at a given time is e goes to one continuously or not is left open. Discontinuities in such chance trajectories can have surprising and troubling consequences for probabilistic analyses of causation and accounts of how events occur in time. This, coupled with the compelling evidence for quantum discontinuities in chance’s evolution, gives rise to a “(dis)continuity bind” with respect to chance probability trajectories. I argue that a viable option for circumventing the (dis)continuity bind is to understand the probabilities “imprecisely,” that is, as intervals rather than point values. I then develop and motivate an alternative kind of continuity appropriate for interval-valued chance probability trajectories
Some modifications to the SNIP journal impact indicator
The SNIP (source normalized impact per paper) indicator is an indicator of
the citation impact of scientific journals. The indicator, introduced by Henk
Moed in 2010, is included in Elsevier's Scopus database. The SNIP indicator
uses a source normalized approach to correct for differences in citation
practices between scientific fields. The strength of this approach is that it
does not require a field classification system in which the boundaries of
fields are explicitly defined. In this paper, a number of modifications that
will be made to the SNIP indicator are explained, and the advantages of the
resulting revised SNIP indicator are pointed out. It is argued that the
original SNIP indicator has some counterintuitive properties, and it is shown
mathematically that the revised SNIP indicator does not have these properties.
Empirically, the differences between the original SNIP indicator and the
revised one turn out to be relatively small, although some systematic
differences can be observed. Relations with other source normalized indicators
proposed in the literature are discussed as well
Efficient spin control in high-quality-factor planar micro-cavities
A semiconductor microcavity embedding donor impurities and excited by a laser
field is modelled. By including general decay and dephasing processes, and in
particular cavity photon leakage, detailed simulations show that control over
the spin dynamics is significally enhanced in high-quality-factor cavities, in
which case picosecond laser pulses may produce spin-flip with high-fidelity
final states.Comment: 6 pages, 4 figure
Special Libraries, February 1978
Volume 69, Issue 2https://scholarworks.sjsu.edu/sla_sl_1978/1001/thumbnail.jp
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