M. Rahman scite author profile

A multielectrode array system has been developed to study how the retina processes and encodes visual images. This system can simultaneously record the extracellular electrical activity from hundreds of retinal output neurons as a dynamic visual image is focused on the input neurons. The retinal output signals detected can be correlated with the visual input to study the neural code used by the eye to send information about the visual world to the brain. The system consists of the following components: 1) a 32 16 rectangular array of 512 planar microelectrodes with a sensitive area of 1.7 mm2 ; the electrode spacing is 60 m and the electrode diameter is 5 m (hexagonal arrays with 519 electrodes are under development); 2) eight 64-channel custom-designed integrated circuits to platinize the electrodes and ac couple the signals; 3) eight 64-channel integrated circuits to amplify, band-pass filter, and analog multiplex the signals; 4) a data acquisition system; and 5) data processing software. This paper will describe the design of the system, the experimental and data analysis techniques, and some first results with live retina. The system is based on techniques and expertise acquired in the development of silicon microstrip detectors for high-energy physics experiments

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Ballistic electron transport in stubbed quantum waveguides: Experiment and theory

Debray

Raichev²,

Vasilopoulos

et al. 2000

Phys. Rev. B

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We present results of experimental and theoretical investigations of electron transport through stub-shaped waveguides or electron stub tuners ͑ESTs͒ in the ballistic regime. Measurements of the conductance G as a function of voltages, applied to different gates V i (iϭbottom, top, and side͒ of the device, show oscillations in the region of the first quantized plateau that we attribute to reflection resonances. The oscillations are rather regular and almost periodic when the height h of the EST cavity is small compared to its width. When h is increased, the oscillations become less regular and broad depressions in G appear. A theoretical analysis, which accounts for the electrostatic potential formed by the gates in the cavity region, and a numerical computation of the transmission probabilities successfully explains the experimental observations. An important finding for real devices, defined by surface Schottky gates, is that the resonance minima result from size quantization along the transport direction of the EST.

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Recycling Rubber Tyres and Waste Plastics in EAF Steelmaking

Sahajwalla

Zaharia

Rahman

et al. 2011

steel research int.

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Electric Arc Furnace (EAF) steelmaking uses different carbon based materials as foaming agents. Depending on cost and availability, anthracite and metallurgical coke are among the conventional injecting materials. Considering the energy and green house gas emissions requirements, alternative carbon sources are put on the spot to replace, at least partially, the conventional materials, i.e. waste materials such as rubber and high density polyethylene (HDPE) plastics may react with gas and slag phases resulting in devolatilization, combustion and iron oxide reduction reactions. The addition of waste tyres and waste plastics in EAF steelmaking has been studied in detail by our groups at UNSW and OneSteel is developing a method for EAFs to use blends of different proportions of rubber/HDPE plastics and coke as a slag foaming agent. Initially, laboratory investigations were carried out to establish the feasibility of carbon and polymer blends as foaming agents. The enhanced slag foaming performance compared to coke was found to be in good accordance with the results obtained in the laboratory indicating an increased slag volume when using polymeric blends. Following the successful installation of materials handling systems at both plants, the use of a rubber and coke blend is no longer considered a trial and is instead standard practice.

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Imaging the dephasing of spin wave modes in a square thin film magnetic element

et al. 2004

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We have used time-resolved scanning Kerr effect microscopy to study dephasing of spin wave modes in a square Ni 81 Fe 19 element of 10 m width and 150 nm thickness. When a static magnetic field H was applied parallel to an edge of the square, demagnetized regions appeared at the edges orthogonal to the field. When H was applied along a diagonal, a demagnetized region appeared along the opposite diagonal. Time-resolved images of the out-of-plane magnetization component showed stripes that lie perpendicular to H and indicate the presence of spin wave modes with wave vector parallel to the static magnetization. The transient Kerr rotation was measured at different positions along an axis parallel to H, and the power spectra revealed a number of different modes. Micromagnetic simulations reproduce both the observed images and the mode frequencies. This study allows us to understand an anisotropic damping observed at the center of the square element in terms of dephasing of the resonant mode spectrum.

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Experimental observation of Coulomb drag in parallel ballistic quantum wires

Debray¹,

Vasilopoulos²,

Raichev³

et al. 2000

Physica E: Low-dimensional Systems and Nanostructures

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M. Rahman

What does the eye tell the brain?: Development of a system for the large-scale recording of retinal output activity

Ballistic electron transport in stubbed quantum waveguides: Experiment and theory

Recycling Rubber Tyres and Waste Plastics in EAF Steelmaking

Imaging the dephasing of spin wave modes in a square thin film magnetic element

Experimental observation of Coulomb drag in parallel ballistic quantum wires

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