Cavity ringdown laser absorption spectroscopy and time-of-flight mass spectroscopy of jet-cooled silver silicides

The cavity ringdown technique has been employed for the first spectroscopic characterization of the AgSi molecule, which is generated in a pulsed laser vaporization plasma reactor. A total of 20 rovibronic bands between 365 and 385 nm have been measured and analyzed to yield molecular properties for the X, B, and C 2Sigma states of AgSi. A time-of-flight mass spectrometer simultaneously monitors species produced in the molecular beam and has provided the first direct evidence for the existence of polyatomic silver silicides. Comparison of the AgSi data to our recent results for the CuSi diatom reveals very similar chemical bonding in the two coinage metal silicides, apparently dominated by covalent interactions

Assessing Data Linking in Transportation Technical Reports

In 2013, the Purdue Libraries partnered with the Joint Transportation Research Program (JTRP), a collaboration between Purdue University and the Indiana Department of Transportation (INDOT), to incorporate the publication of research data sets into the technical report publication process. This project extended an existing process, developed in partnership between the Purdue Libraries, Purdue University Press, and JTRP, which leveraged Purdue\u27s institutional repository to replace artisanal production processes with a more professional approach (Zilinski, Scherer, Bullock, Horton, & Matthews, forthcoming; Newton, Bullock, Watkinson, Bracke, & Horton, 2012). The existing workflow focused on production of textual documents, but did not address opportunities related to research data or geospatial information within the reports. The new workflow was intended to improve access to, and usability of, research data embedded in the reports by combining functions of Purdue e-Pubs with functions of the Purdue University Research Repository (PURR). This paper will present a framework for repository assessment including performance indicators and instruments measuring the impact of leveraging data and institutional repositories for linking publications to data. This framework will allow us to address research questions such as: What is the strategic value of linking data and publication for researchers and research centers? How can repositories contribute to key performance outcomes for researchers and research center administrators? What is the value of this initiative to library administration? Why is this relationship and initiative important to the libraries in developing repository and data services

Evaluation of Job Benefits of Members of the American Agricultural Editors Association

The Communication Clinic Committee of the American Agricultural Editors Association (AAEA), in cooperation with the Iowa State University Department of Journalism and Mass Communication, surveyed AAEA members to determine salaries, fringe benefits, and satisfaction with benefits

On the ground electronic states of copper silicide and its ions

The low-lying electronic states of SiCu, SiCu^+, and SiCu^− have been studied using a variety of high-level ab initio techniques. As expected on the basis of simple orbital occupancy and bond forming for Si(s^2p^2)+Cu(s^1) species, ^2Π_r, ^1Σ^+, and ^3Σ^− states were found to be the ground electronic states for SiCu, SiCu^+, and SiCu^−, respectively; the ^2Π_r state is not that suggested in most recent experimental studies. All of these molecules were found to be quite strongly bound although the bond lengths, bond energies, and harmonic frequencies vary slightly among them, as a result of the nonbonding character of the 2π-MO (molecular orbital) [composed almost entirely of the Si 3p-AO (atomic orbital)], the occupation of which varies from 0 to 2 within the ^1Σ^+, ^2Π_r, and ^3Σ^− series. The neutral SiCu is found to have bound excited electronic states of ^4Σ^−, ^2Δ, ^2Σ^+, and ^2Π_i symmetry lying 0.5, 1.2, 1.8, and 3.2 eV above the ^2Π_r ground state. It is possible but not yet certain that the ^2Π_i state is, in fact, the “B state” observed in the recent experimental studies by Scherer, Paul, Collier, and Saykally

An exploration of the experiences and utility of functional electrical stimulation for foot drop in people with multiple sclerosis

Purpose: Functional electrical stimulation (FES) is effective in improving walking in people with multiple sclerosis (MS) with foot drop. There is limited research exploring people’s experiences of using this device. This study aims to explore the utility, efficacy, acceptability, and impact on daily life of the device in people with MS. Methods: An interpretative phenomenological approach was employed. Ten participants who had used FES for 12 months were interviewed. Transcripts were analysed, and emergent themes identified. Results: Nine participants continued to use the device. Three relevant super-ordinate themes were identified; impact of functional electrical stimulation, sticking with functional electrical stimulation, and autonomy and control. Participants reported challenges using the device; however, all reported positive physical and psychological benefits. Intrinsic and external influences such as; access to professional help, the influence of others, an individual’s ability to adapt, and experiences using the device, influenced their decisions to continue with the device. A thematic model of these factors was developed. Conclusions: This study has contributed to our understanding of people with MS experiences of using the device and will help inform prescribing decisions and support the continued, appropriate use of FES over the longer term

EEG-based endogenous online co-adaptive brain-computer interfaces: strategy for success?

A Brain-Computer Interface (BCI) translates patterns of brain signals such as the electroencephalogram (EEG) into messages for communication and control. In the case of endogenous systems the reliable detection of induced patterns is more challenging than the detection of the more stable and stereotypical evoked responses. In the former case specific mental activities such as motor imagery are used to encode different messages. In the latter case users have to attend sensory stimuli to evoke a characteristic response. Indeed, a large number of users who try to control endogenous BCIs do not reach sufficient level of accuracy. This fact is also known as BCI “inefficiency” or “illiteracy”. In this paper we discuss and make some conjectures, based on our knowledge and experience in BCI, on whether or not online co-adaptation of human and machine can be the solution to overcome this challenge. We point out some ingredients that might be necessary for the system to be reliable and allow the users to attain sufficient control.C. Vidaurre was supported by grant number RyC-2014-15671 of the Spanish MINECO