T. Nagaya scite author profile

T. Nagaya

5Publications

35Citation Statements Received

17Citation Statements Given

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Affiliations

Osaka University, Tohoku University, Kobe City College of Technology

Publications

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Feed-out of Rear Surface Perturbation due to Rarefaction Wave in Laser-Irradiated Targets

et al. 2000

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We report experimental results on hydrodynamic perturbation transfer from the rear to the front of laser-irradiated targets. Flat polystyrene foils with rear-surface perturbations were irradiated by partially coherent light. We observed phase inversion of the rear surface after the shock breakout at the rear surface. Perturbations on the laser-irradiated surface arose due to the rippled rarefaction wave. Experimental results were well reproduced by a simple model with unperturbed hydrodynamic quantities calculated from the one-dimensional simulation.

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Producing multicharged fullerene ion beam extracted from the second stage of tandem-type ECRIS

Nagaya

Nishiokada

Hagino

et al. 2015

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We have been constructing the tandem-type electron cyclotron resonance ion source (ECRIS). Two ion sources of the tandem-type ECRIS are possible to generate plasma individually, and they also confined individual ion species by each different plasma parameter. Hence, it is considered to be suitable for new materials production. As the first step, we try to produce and extract multicharged C60 ions by supplying pure C60 vapor in the second stage plasma because our main target is producing the endohedral fullerenes. We developed a new evaporator to supply fullerene vapor, and we succeeded in observation about multicharged C60 ion beam in tandem-type ECRIS for the first time.

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Improvement and recent applications of the Tohoku microbeam system

Matsuyama

Ishii

Watanabe

et al. 2014

Nuclear Instruments and Methods in Physics Research Section B:

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Single spatial mode experiments on initial laser imprint on direct-driven planar targets

Nakai

Azechi

Miyanaga

et al. 2002

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Flat plastic targets were directly irradiated and accelerated by partially coherent light from the GEKKO XII laser [Yamanaka et al., IEEE J. Quantum Electron. QE-17, 1639 (1981)] with the wavelength of 0.53 μm in order to investigate initial laser imprinting. The growth of the perturbation imprinted on the target by an initial foot pulse modulated with a single spatial frequency was observed by the face-on x-ray backlight technique. Imprint levels produced by the foot beam with a stationary intensity modulation of the illumination profile and with a dynamically changing modulation were successfully obtained by an image relay technique and the improved two-wavelength Young’s interference method. Simple analytic models are proposed and compared with the experimental results. Stationary imprinting with perturbation wavelength longer than the target thickness is found to be well described by a simple incompressible model. The dynamic dependence of the imprint on the time scale of the temporal illumination profile is found to be qualitatively explained by linear perturbation analysis.

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Perturbation transfer from the front to rear surface of laser-irradiated targets

et al. 2002

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We present experimental results on the perturbation transfer of laser irradiated planar foils. Perturbed polystyrene foils were irradiated directly by laser at intensity of 6 x 10(13) W/cm(2). We measured perturbations on the foils by side-on x-ray backlighting technique. Perturbations on the rear surface due to the rippled shock front were observed just after the shock breakout. We also observed feed-through of perturbations on the laser-irradiated surface that grows due to the Rayleigh-Taylor instability.

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T. Nagaya

Feed-out of Rear Surface Perturbation due to Rarefaction Wave in Laser-Irradiated Targets

Producing multicharged fullerene ion beam extracted from the second stage of tandem-type ECRIS

Improvement and recent applications of the Tohoku microbeam system

Single spatial mode experiments on initial laser imprint on direct-driven planar targets

Perturbation transfer from the front to rear surface of laser-irradiated targets

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