Verifying continuous variable entanglement of intense light pulses

Three different methods have been discussed to verify continuous variable entanglement of intense light beams. We demonstrate all three methods using the same set--up to facilitate the comparison. The non--linearity used to generate entanglement is the Kerr--effect in optical fibres. Due to the brightness of the entangled pulses, standard homodyne detection is not an appropriate tool for the verification. However, we show that by using large asymmetric interferometers on each beam individually, two non-commuting variables can be accessed and the presence of entanglement verified via joint measurements on the two beams. Alternatively, we witness entanglement by combining the two beams on a beam splitter that yields certain linear combinations of quadrature amplitudes which suffice to prove the presence of entanglement.Comment: 11 pages, 7 figures, to appear in Phys. Rev.

Editorial: water governance in a climate change world: appraising systemic and adaptive effectiveness

and other research outputs Editorial: water governance in a climate change world: appraising systemic and adaptive effectivenes

Inter-University International Collaboration for an Online Course: A Case Study

This paper is a practical account of the experience of collaboration between two international partners – one in Europe and the other in the United States. This collaboration experience is a lens through which the authors outline the origin, design and implementation of an inter-university teaching experience. The processes, strengths and difficulties are outlined and the rationale for utilising a virtual world is given, along with the participants’ perspectives of the experience. No institutional changes or formal agreements were needed. The same course was validated and accredited by each institution and designed to address the requirements of each with the responsibility for participant progress and assessment remaining with the home institution. The paper discusses issues of coordination and makes recommendations for developing similar collaborations

Outlaw Community Innovations

Recent studies of outlaw communities provide qualitative evidence of their existence and the organisation of the underlying innovation processes. We provide descriptive results from a large scale survey of two online outlaw communities focussing on Microsoft's XBox. In line with previous findings, we identify two types of participants in outlaw communities - user innovators and adopters. Based on 2,256 responses, we find that users modify their XBox mainly to be able to increase the set of available functions of their XBox. Users are also motivated to modify their XBox for the sake of having fun and to conduct pirate behaviour. Finally, the results from our survey suggest that user innovators are largely intrinsically motivated by fun and the intellectual stimulation of writing code for homebrew software

Intracule Functional Models I. Angle-corrected correlation kernels

We explore the merits of applying a simple angle-dependent correction to the correlation kernel within the framework of Hartree–Fock–Wigner theory. Based on numerical results for the first eighteen atoms, we conclude that such a correction offers a significant improvement over the action kernel that we and others have explored previously

The Relationship between the UniProt Knowledgebase (UniProtKB) and the IntAct Molecular Interaction Databases

IntAct provides a freely available, open source database system and analysis tools for protein interaction data. All interactions are derived from literature curation or direct user submission and all experimental information relating to binary protein-protein
interactions is entered into the IntAct database by curators, via a web-based editor. Interaction information is added to the SUBUNIT comment and the RP line of the relevant publication within the UniProtKB entry. There may be a single INTERACTION comment present within a UniProtKB entry, which conveys information relevant to binary protein-protein interactions. This is automatically derived from the IntAct database and is updated on a triweekly basis. Interactions can be derived by any appropriate experimental method but must be confirmed by a second interaction if resulting from a single yeast2hybrid experiment. For large-scale experiments, interactions are considered if a high confidence score is assigned by the authors. The INTERACTION line contains a direct link to IntAct that provides detailed information for the experimental support. These lines are not changed manually and any discrepancy is reported to IntAct for updates. There is also a database crossreference line within the UniProtKB entry i.e.: DR IntAct _UniProtKB AC, which directs the user to additional interaction data for that molecule. 
UniProt is supported by grants from the National Institutes of Health, European Commission, Swiss Federal Government and PATRIC BRC.
IntAct is funded by the European Commission under FELICS, contract number 021902 (RII3) within the Research Infrastructure Action of the FP6 "Structuring the European Research Area" Programme

Assessing the forming temperature role on amorphous and polycrystalline HfO2-based 4 kbit RRAM arrays performance

The impact of temperature during the forming operation on the electrical cells performance and the post-programming stability were evaluated in amorphous and polycrystalline HfO2-based arrays. Forming (between − 40 and 150 °C), reset and set (at room temperature) operations were applied using the incremental step pulse with verify algorithm (ISPVA). The improvements achieved on the forming operation in terms of time and voltages reduction do not impact the subsequent reset/set results. ISPVA perturbations in LRS/HRS current distributions are almost negligible after the first reset/set operation. In this study the best improvement in forming operation in terms of yield, voltage values and cell-to-cell variability is achieved in polycrystalline samples at 80 °C

Measuring Nurses’ Impact on Health Care Quality: Progress, Challenges, and Future Directions

Background: Quality measurement is central in efforts to improve health care delivery and financing. The Interdisciplinary Nursing Quality Research Initiative supported interdisciplinary research teams to address gaps in measuring the contributions of nursing to quality care. Objective: To summarize the research of 4 interdisciplinary teams funded by The Interdisciplinary Nursing Quality Research Initiative and reflect on challenges and future directions to improving quality measurement. Methods: Each team summarized their work including the targeted gap in measurement, the methods used, key results, and next steps. The authors discussed key challenges and recommended future directions. Results: These exemplar projects addressed cross-cutting issues related to quality; developed measures of patient experience; tested new ways to model the important relationships between structure, process, and outcome; measured care across the continuum; focused on positive aspects of care; examined the relationship of nursing care with outcomes; and measured both nursing and interdisciplinary care. Discussion: Challenges include: measuring care delivery from multiple perspectives; determining the dose of care delivered; and measuring the entire care process. Meaningful measures that are simple, feasible, affordable, and integrated into the care delivery system and electronic health record are needed. Advances in health information systems create opportunities to advance quality measurement in innovative ways. Conclusions: These findings and products add to the robust set of measures needed to measure nurses’ contributions to the care of hospitalized patients. The implementation of these projects has been rich with lessons about the ongoing challenges related to quality measurement