Tomoharu Nakazato scite author profile

The formation and decay of doubly excited methane in photon and electron interactions have been investigated through measuring (i) the cross sections for the emission of the Lyman-α fluorescence in the photoexcitation of CH4 as a function of incident photon energy in the range 18–51 eV and (ii) the electron-energy-loss spectrum of CH4 tagged with the Lyman-α photons at 80 eV incident electron energy and 10° electron scattering angle in the range of the energy loss 20–45 eV. Five superexcited states have been found, three of which are doubly excited states with the others being singly excited states. It has been found that the electron interaction with CH4 at 80 eV incident electron energy and 10° electron scattering angle accelerates the double excitation against the single excitation as compared with the photon interaction.

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Pr 3 + -doped fluoro-oxide lithium glass as scintillator for nuclear fusion diagnostics

Arikawa

Yamanoi

Nakazato

et al. 2009

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Experimental results are presented on the neutron scintillating properties of a custom-designed Pr3+ (praseodymium)-doped lithium (Li) glass. Luminescence was observed at 278 nm wavelength, originating from the 5d-4f transition. Time-resolved measurements yielded about 20 ns decay times for ultraviolet and x-ray excitation while much faster decay times of about 6 ns were observed for alpha particle and neutron excitation. Actual time-of-flight data in laser fusion experiments at the GEKKO XII facility of the Institute of Laser Engineering, Osaka University reveal that it can clearly discriminate fusion neutrons from the much stronger x-rays signals. This material can promise improved accuracy in future scattered neutron diagnostics.

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Plasma physics and laser development for the Fast-Ignition Realization Experiment (FIREX) Project

et al. 2009

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Since the approval of the first phase of Fast Ignition Realization Experiment (FIREX-I), we have devoted our efforts on designing advanced targets and constructing the world highest-energy Peta Watt laser. The new target design has the following features. The coupling efficiency from the heating laser to the thermal energy of the compressed core plasma can be increased by the two ways:1) Low-Z foam layer on the inner surface of the cone for optimum absorption. 2) Double cone. Electrons generated in the inner surface of the double cone will return by sheathe potential generated between two cones. The implosion performance can be improved by three ways: 3) Low-Z plastic layer on the outer surface of the cone may suppress the expansion of the Au cone that flows into the interior of the compressed core. 4) Br doped plastic ablator may significantly moderate the Rayleigh-Taylor instability, making implosion more stable. 5) Evacuation of the target center to prevent gas jets from destroying the cone tip. For project robustness, we also explore 6) impact ignition scheme that eliminates complexity of laser-plasma interaction while keeping the compactness advantage of fast ignition. The fully integrated fast ignition experiment is scheduled on 2009. If subsequent FIREX-II will start as proposed, the ignition and burn will be demonstrated shortly after the ignition at NIF and LMJ, providing a scientific database of both central and fast ignition.

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Doubly excited states of ammonia produced by photon and electron interactions

Ishikawa

Odagiri²,

Yachi

et al. 2008

J. Phys. B: At. Mol. Opt. Phys.

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The formation and decay of doubly excited ammonia produced by photon and electron interactions have been investigated through measuring (i) the cross sections for the emission of the Lyman-α fluorescence in the photoexcitation of NH3 as a function of incident photon energy in the range 15–60 eV and (ii) the electron-energy-loss spectrum of NH3 tagged with the Lyman-α photons at 100 eV incident electron energy and 8° electron scattering angle in the range of the energy loss 15–48 eV. Six superexcited states have been found, four of which are doubly excited states with one being a singly excited state and the other being a state including electron configurations of a single excitation and double excitations. There exist two forbidden doubly excited states whose widths are approximately 1 eV, i.e. much sharper than the allowed superexcited states in the electron-energy-loss spectrum tagged with the Lyman-α photons. It is remarkable that the electron interaction with NH3 at 100 eV incident electron energy and 8° electron scattering angle promotes the ratio of the oscillator strength for the double excitation to that for the single excitation as compared with the photon interaction.

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A process-variation-tolerant dual-power-supply SRAM with 0.179µm<sup>2</sup> Cell in 40nm CMOS using level-programmable wordline driver

Hirabayashi

Kawasumi

Suzuki

et al. 2009

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