22,699 research outputs found

    Powerful partnerships: enhancing the student experience through career long professional learning [Poster]

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    The School of Education (SofE) recognises the importance of promoting opportunities for students and staff to engage with each other. Higher Education (HE) has been transformed over the last twenty years and the change from teacher-centred pedagogy to a more student-centred approach has been widely adopted (O’Neill and McMahon, 2005). The SofE provides a rich and diverse curriculum of study across a range of degree programmes. We have established a staff and student partnership which has seen a refreshed focus on the student, where their voice is influential in what they learn. This has been the emphasis of many researchers in the past. Both Rogers (1983) and Burnard (1999) illustrate that this is essential in establishing and maintaining student-centred learning. This poster illustrates the benefits to a staff and student partnership as established at The University of Glasgow

    Observation of a cascaded process in intracavity terahertz optical parametric oscillators based on lithium niobate

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    Cascaded difference frequency generation has been observed in intracavity optical parametric oscillators based on bulk lithium niobate and producing nanosecond pulses of terahertz radiation. Two idler waves are generated, namely: the primary idler wave associated with the parametric down conversion process itself; and a secondary idler wave, due to difference frequency generation. Experimental investigations of the frequency, temporal evolution, propagation direction, intensity, phase matching and oscillation threshold of the generated down-converted waves are reported. The overall generation efficiency for the terahertz radiation is enhanced, thereby overcoming the Manley-Rowe limit. Advantages of the present approach over schemes based on periodically poled lithium niobate are identified.Publisher PDFPeer reviewe

    Advanced turboprop noise prediction: Development of a code at NASA Langley based on recent theoretical results

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    The development of a high speed propeller noise prediction code at Langley Research Center is described. The code utilizes two recent acoustic formulations in the time domain for subsonic and supersonic sources. The structure and capabilities of the code are discussed. Grid size study for accuracy and speed of execution on a computer is also presented. The code is tested against an earlier Langley code. Considerable increase in accuracy and speed of execution are observed. Some examples of noise prediction of a high speed propeller for which acoustic test data are available are given. A brisk derivation of formulations used is given in an appendix

    The temporal dynamic of response inhibition in early childhood: An ERP study of partial and successful inhibition

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    Event-related potentials were recorded while five-year-old children completed a Go/No-Go task that distinguished between partial inhibition (i.e., response is initiated but cancelled before completion) and successful inhibition (i.e., response is inhibited before it is initiated). Partial inhibition trials were characterized by faster response initiation and later latency of the lateral frontal negativity (LFN) than successful Go and successful inhibition trials. The speed of response initiation was influenced by the response speed on previous trials and influenced the response speed on subsequent trials. Response initiation and action decision dynamically influenced each other, and their temporal interplay determined response inhibition success

    Powerful partnerships: enhancing the student experience through career long professional learning [Poster]

    Get PDF
    The School of Education (SofE) recognises the importance of promoting opportunities for students and staff to engage with each other. Higher Education (HE) has been transformed over the last twenty years and the change from teacher-centred pedagogy to a more student-centred approach has been widely adopted (O’Neill and McMahon, 2005). The SofE provides a rich and diverse curriculum of study across a range of degree programmes. We have established a staff and student partnership which has seen a refreshed focus on the student, where their voice is influential in what they learn. This has been the emphasis of many researchers in the past. Both Rogers (1983) and Burnard (1999) illustrate that this is essential in establishing and maintaining student-centred learning. This poster illustrates the benefits to a staff and student partnership as established at The University of Glasgow

    Photon signature analysis using template matching

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    We describe an approach to detect improvised explosive devices (IEDs) by using a template matching procedure. This approach relies on the signature due to backstreaming ? photons from various targets. In this work we have simulated cylindrical targets of aluminum, iron, copper, water and ammonium nitrate (nitrogen-rich fertilizer). We simulate 3.5 MeV source photons distributed on a plane inside a shielded area using Monte Carlo N-Particle (MCNP TM) code version 5 (V5). The 3.5 MeV source gamma rays yield 511 keV peaks due to pair production and scattered gamma rays. In this work, we simulate capture of those photons that backstream, after impinging on the target element, toward a NaI detector. The captured backstreamed photons are expected to produce a unique spectrum that will become part of a simple signal processing recognition system based on the template matching method. Different elements were simulated using different sets of random numbers in the Monte Carlo simulation. To date, the sum of absolute differences (SAD) method has been used to match the template. In the examples investigated, template matching was found to detect all elements correctly

    Lack of nicotinic supersensitivity in frog sympathetic neurones following denervation.

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    The sensitivity of bull-frog sympathetic neurones to nicotinic, cholinergic agonists has been studied in both normal (control) and surgically denervated ganglia. Using gross extracellular recording, the sensitivity to acetylcholine (ACh) increased 18-fold following denervation, while that to carbachol (CCh) was unchanged. Normal ganglia showed a similar sensitivity increase after inhibition of cholinesterase. This suggests that the rise in ACh sensitivity is due to reduced cholinesterase activity, not to true supersensitivity. There was no significant difference in resting membrane potential or input resistance between normal and denervated neurones. Neurones denervated for 7-50 days showed no significant change in sensitivity to ACh or CCh applied iontophoretically at a distance of 10 micron from the cell surface. In control ganglia, localized iontophoretic application of ACh revealed an uneven distribution of sensitivity which is attributed to the localization of receptors to synaptic areas. Fourteen days after denervation, the geometric mean sensitivity to focally applied ACh was not significantly different from that found in control ganglia. The variation in sensitivity to focally applied ACh at randomly chosen sites on denervated neurones was as great as that found in control ganglia. It is concluded that denervation does not cause frog sympathetic neurones to become supersensitive to ACh. The apparent increase in nicotinic ACh sensitivity observed using extracellular recording from whole ganglia is due not to a change in the number or distribution of ACh receptors, but to a decrease in cholinesterase activity
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