H. Murai scite author profile

We report absolute differential cross sections (DCSs) for elastic electron scattering from OCS (carbonyl sulphide) and CS 2 (carbon disulphide) in the impact energy range of 1.2-200 eV and for scattering angles from 10 • to 150 • . Above 10 eV, the angular distributions are found to agree quite well with our present calculations using two semi-phenomenological theoretical approaches. One employs the independent-atom model with the screening-corrected additivity rule (IAM-SCAR), while the other uses the continuum-multiple-scattering method in conjunction with a parameterfree exchange-polarization approximation. Since OCS is a polar molecule, further dipole-induced rotational excitation cross sections have been calculated in the framework of the first Born approximation and incoherently added to the IAM-SCAR results. In comparison with the calculated DCS for the S atom, atomic-like behavior for the angular distributions in both the OCS and CS 2 scattering systems is observed. Integrated elastic cross sections are obtained by extrapolating the experimental measurements, with the aid of the theoretical calculations, for those scattering angles below 10 • and above 150 • . These values are then compared with the available total cross sections.

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Improvement in the light emission characteristics of CdS:Cu/CdS diodes

Murai

Abe

Matsuda

et al. 2005

Applied Surface Science

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18.5L: Late‐News Paper: low power Consumption TFT‐LCD with Dynamic Memory Embedded in Pixels

Tokioka

Agari

Inoue

et al. 2001

Symp Digest of Tech Papers

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A low power consumption Thin Film Transistor‐Liquid Crystal Display (TFT‐LCD) with dynamic memory cells embedded in each pixel using low‐temperature poly‐Si technology has been developed. By holding data in the memory, the operating rate of the data driver can be dramatically reduced to 4Hz. Eight gray scale with low power consumption can be achieved by the area‐ratio gray scale method. This TFT‐LCD can be used for displaying fine still images with low power consumption.

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Low‐power‐consumption TFT‐LCD with dynamic memory embedded in the pixels

Tokioka¹,

Agari²,

Inoue³

et al. 2002

J Soc Info Display

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Abstract— A low‐power‐consumption thin‐film‐transistor liquid‐crystal display (TFT‐LCD) with dynamic memory cells embedded in each pixel using low‐temperature poly‐Si technology has been developed. By holding data in the memory, the operating rate of the data driver can be dramatically reduced to 4 Hz. Eight levels of gray scale with low power consumption can be achieved by using the area‐ratio gray‐scale method. This TFT‐LCD can be used for displaying fine still images, with low power consumption.

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H. Murai

Relationship between carbonaceous materials and electrolyte in secondary lithium-ion batteries

A comprehensive and comparative study of elastic electron scattering from OCS and CS2 in the energy region from 1.2 to 200 eV

Improvement in the light emission characteristics of CdS:Cu/CdS diodes

18.5L: Late‐News Paper: low power Consumption TFT‐LCD with Dynamic Memory Embedded in Pixels

Low‐power‐consumption TFT‐LCD with dynamic memory embedded in the pixels

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