M. Hamabe scite author profile

M. Hamabe

5Publications

82Citation Statements Received

40Citation Statements Given

How they've been cited

126

How they cite others

Affiliations

Chubu University, National Institute for Fusion Science, The Graduate University for Advanced Studies, SOKENDAI

Publications

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Isotope Effect of H^–/D^– Volume Production in Low‐Pressure H₂/D₂ Plasmas – Measurement of VUV Emissions and Negative Ion Densities

Fukumasa

Mori

Nakada

et al. 2004

Contrib. Plasma Phys.

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Isotope effect on H− / D − volume production is studied by measuring both VUV emission and negative ion density in the source. In a double plasma type source, under some discharge conditions, extracted D − currents are nearly the same as H − currents, although VUV emission intensity (corresponding to production of vibrationally excited molecules) in D2 plasmas is slightly lower than that in H2 plasmas. Considering the factor √ 2 due to mass difference, D − ion density in the extraction region of the source is higher than H − ion density. In another experiment with a rectangular arc chamber, axial distributions of H − / D − ion densities in the source are measured directly using a laser photodetachment method. Relationship between H − / D − production and plasma parameter control with using a magnetic filter (MF) is discussed. Furthermore, relative intensities of extracted negative ion currents are discussed compared with the negative ion densities in the source. Production and control of D2 plasmas are well realized with the MF including good combination between the filament position and field intensity of the MF. Extracted H − and D − currents depend directly on negative ion densities in the source.

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Research activities of DC superconducting power transmission line in Chubu University

Yamaguchi

Hamabe

Yamamoto

et al. 2008

J. Phys.: Conf. Ser.

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Recent Progress of Experiment on DC Superconducting Power Transmission Line in Chubu University

Hamabe

Fujii

Yamamoto

et al. 2009

IEEE Trans. Appl. Supercond.

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Thermoelectric Characteristics of Si/Ge Superlattice Thin Films at Temperatures Less Than 300 K

Hamabe

Takahashi

Yamaguchi

et al. 2003

Jpn. J. Appl. Phys.

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Compensation of beam deflection due to the magnetic field using beam steering by aperture displacement technique in the multibeamlet negative ion source

Hamabe

Takeiri

Ikeda

et al. 2001

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A beam steering technique using aperture displacement was examined to correct the negative ion beam deflection due to the magnetic field for electron suppression in a large-area multibeamlet H− source. The total deflection angle was estimated, including the effect of the deflection by the electron suppression magnetic field and the beam steering by the aperture displacement, both by linear optics theory and by three-dimensional beam trajectory simulation. Two methods were compared; one used the displacement both of the grounded grid (GG) apertures and of the exit part of the extraction grid (EG exit) apertures, and the other used the displacement only of the EG exit. The beam steering experiments were performed using a large-area multibeamlet H− source with both displacement methods, and the results were compared with the theoretical estimations. As a result, both methods were effective to correct the beam deflection. In particular, the displacement of only the EG exit with a simplified displacement structure achieved a large steering angle by a small displacement. The steering angle in the experiment was a few mrad smaller than the estimations. Based on these results, the aperture displacement of the EG exit was applied to the 1/5 segment of a H− source in the Large-Helical-Device neutral beam injector, where the GG apertures are displaced only focusing of the large-area multibeamlet. In this case, 1.0 mm of the displacement is concluded to be proper to sufficiently compensate the beam deflection at 180 keV, from extrapolation of the beam energy characteristics at 100–140 kev.

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M. Hamabe

Isotope Effect of H^–/D^– Volume Production in Low‐Pressure H₂/D₂ Plasmas – Measurement of VUV Emissions and Negative Ion Densities

Research activities of DC superconducting power transmission line in Chubu University

Recent Progress of Experiment on DC Superconducting Power Transmission Line in Chubu University

Thermoelectric Characteristics of Si/Ge Superlattice Thin Films at Temperatures Less Than 300 K

Compensation of beam deflection due to the magnetic field using beam steering by aperture displacement technique in the multibeamlet negative ion source

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M. Hamabe

Isotope Effect of H–/D– Volume Production in Low‐Pressure H2/D2 Plasmas – Measurement of VUV Emissions and Negative Ion Densities

Research activities of DC superconducting power transmission line in Chubu University

Recent Progress of Experiment on DC Superconducting Power Transmission Line in Chubu University

Thermoelectric Characteristics of Si/Ge Superlattice Thin Films at Temperatures Less Than 300 K

Compensation of beam deflection due to the magnetic field using beam steering by aperture displacement technique in the multibeamlet negative ion source

Contact Info

Product

Resources

About

Isotope Effect of H^–/D^– Volume Production in Low‐Pressure H₂/D₂ Plasmas – Measurement of VUV Emissions and Negative Ion Densities