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1,966 results on '"Saitoh H"'

1. Injection of Positrons into a Dense Electron Cloud in a Magnetic Dipole Trap

Author

Singer, M., Stoneking, M. R., Stenson, E. V., Deller, A., Card, A., Nißl, S., Horn-Stanja, J., Pedersen, T. Sunn, Saitoh, H., and Hugenschmidt, C.

Subjects
Physics - Plasma Physics
Abstract

The creation of an electron space charge in a dipole magnetic trap and the subsequent injection of positrons has been experimentally demonstrated. Positrons (5eV) were magnetically guided from their source and injected into the trapping field generated by a permanent magnet (0.6T at the poles) using a cross field E $\times$ B drift, requiring tailored electrostatic and magnetic fields. The electron cloud is created by thermionic emission from a tungsten filament. The maximum space charge potential of the electron cloud reaches -42V, which is consistent with an average electron density of ($4 \pm 2$) $\times 10^{12}$ $\text{m}^{-3}$ and a Debye length of ($2 \pm 1$) $\text{cm}$. We demonstrate that the presence of this space potential does not hamper efficient positron injection. Understanding the effects of the negative space charge on the injection and confinement of positrons represents an important intermediate step towards the production of a confined electron-positron pair plasma.

Published
2021
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4. Measurement of Wave Electric Fields in Plasmas by Electro-Optic Probe

Author

Nishiura, M., Yoshida, Z., Mushiake, T., Kawazura, Y., Osawa, R., Fujinami, K., Yano, Y., Saitoh, H., Yamasaki, M., Kashyap, A., Takahashi, N., Nakatsuka, M., and Fukuyama, A.

Subjects
Physics - Plasma Physics
Abstract

Electric field measurement in plasmas permits quantitative comparison between the experiment and the simulation in this study. An electro-optic (EO) sensor based on Pockels effect is demonstrated to measure wave electric fields in the laboratory magnetosphere of the RT-1 device with high frequency heating sources. This system gives the merits that electric field measurements can detect electrostatic waves separated clearly from wave magnetic fields, and that the sensor head is separated electrically from strong stray fields in circumference. The electromagnetic waves are excited at the double loop antenna for ion heating in electron cyclotron heated plasmas. In the air, the measured wave electric fields are in good absolute agreement with those predicted by the TASK/WF2 code. In inhomogeneous plasmas, the wave electric fields in the peripheral region are enhanced compared with the simulated electric fields. The potential oscillation of the antenna is one of the possible reason to explain the experimental results qualitatively., Comment: submitted to Review of Scientific Instruments

Published
2016

5. Thermo-magneto coupling in a dipole plasma

Author

Yoshida, Z., Yano, Y., Morikawa, J., and Saitoh, H.

Subjects
Physics - Plasma Physics, Astrophysics - Earth and Planetary Astrophysics
Abstract

On a dipole plasma, we observe the generation of magnetic moment, as the movement of the levitating magnet-plasma compound, in response to electron-cyclotron heating and the increase of $\beta$ (magnetically-confined thermal energy). We formulate a thermodynamic model with interpreting heating as injection of microscopic magnetic moment; the corresponding chemical potential is the ambient magnetic field., Comment: 4 pages, 3 figures

Published
2012
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6. Nature of Structural Transformations in the B2O3 Glass under High Pressure

Author

Brazhkin, V. V., Katayama, Y., Trachenko, K., Tsiok, O. B., Lyapin, A. G., Artacho, Emilio, Dove, M., Ferlat, G., Inamura, Y., and Saitoh, H.

Subjects
Condensed Matter - Disordered Systems and Neural Networks
Abstract

We report the results of the X-ray diffraction study of B2O3 glass in the pressure interval up to 10 GPa in the 300-700 K temperature range, the results of in-situ volumetric measurements of the glass at pressures up to 9 GPa at room temperature, and first-principles simulations data at pressures up to 250GPa. The behavior of B2O3 glass under pressure can be described as two broad pressure-overlapping transitions. The first transition starts at P > 1 GPa and proceeds without any changes in thecoordination number of the boron atoms; the other one starts at P > 5 GPa and is accompanied by a gradual increase of coordination number. The second transition is completely reversible; the residual densification of the B2O3 glass after decompression is associated with the incomplete reversibility of the first transformation. The fraction of boron atoms transferred to the 4-coordination state in the glass at P < 10 GPa is much smaller than was assumed from indirect experimental data [4], but is considerably larger (by tens of times) than was previously suggested by the classical molecular dynamics simulations [5,6]. The observed transformations under both compression and decompression are quite broad, contrary to the assumption in Ref. [7]. On the basis of ab-initio results, we also predict the one more transformation under higher pressures to a super-dense phase, in which B atoms become 5- and 6-fold coordinated.

Published
2008

8. Development of a Multiphoton Fluorescence Lifetime Imaging Microscopy (FLIM) system using a Streak Camera

Author

Krishnan, R. V., Saitoh, H., Terada, H., Centonze, V. E., and Herman, B.

Subjects
Quantitative Biology - Quantitative Methods
Abstract

We report the development and detailed calibration of a multiphoton fluorescence lifetime imaging system (FLIM) using a streak camera. The present system is versatile with high spatial (0.2 micron) and temporal (50 psec) resolution and allows rapid data acquisition and reliable and reproducible lifetime determinations. The system was calibrated with standard fluorescent dyes and the lifetime values obtained were in very good agreement with values reported in literature for these dyes. We also demonstrate the applicability of the system to FLIM studies in cellular specimens including stained pollen grains and fibroblast cells expressing green fluorescent protein. The lifetime values obtained matched well with those reported earlier by other groups for these same specimens. Potential applications of the present system include the measurement of intracellular physiology and Fluorescence Resonance Energy Transfer (FRET) imaging which are discussed in the context of live cell imaging.

Published
2003
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19. Ion cyclotron resonance heating system in the RT-1 magnetospheric plasma

Author

NISHIURA, Masaki, Kawazura, Y., yoshida, Zensho, Kenmochi, Naoki, YANO, Y., SAITOH, H., Yamasaki, M., Mushiake, T., Kashyap, A., takahashi, N., Nakatsuka, M., FUKUYAMA, Atsushi, NISHIURA, Masaki, Kawazura, Y., yoshida, Zensho, Kenmochi, Naoki, YANO, Y., SAITOH, H., Yamasaki, M., Mushiake, T., Kashyap, A., takahashi, N., Nakatsuka, M., and FUKUYAMA, Atsushi

Abstract

We have developed an ion cyclotron resonance frequency (ICRF) heating system for the Ring Trap 1 (RT-1) magnetospheric device. We excite slow waves from the polar region of the dipole magnetic field. The target helium plasma is produced by electron cyclotron heating. The electrons comprise high-temperature (>10 keV) and low-temperature (<100 eV) components with both typically exhibiting densities of the same order of magnitude. The ICRF heating causes an increase in the ion temperatures and toroidal flow velocities in the core plasma region. We observe appreciable temperature differences between the different ion species (main He+ and impurity C2+), suggesting a strong influence of the charge-exchange loss, which caused the bulk ions to remain relatively cold (~20 eV) compared to the impurity ions (~40 eV). By developing an electro-optical measurement system, we have measured the local wave electric field in the plasma., source:M. Nishiura et al 2017 Nucl. Fusion 57 086038, source:https://doi.org/10.1088/1741-4326/aa720d

Published
2021

20. Electro-optic probe measurements of electric fields in plasmas

Author

NISHIURA, Masaki, yoshida, Zensho, Mushiake, T., Kawazura, Y., Osawa, R., Fujinami, K., YANO, Y., SAITOH, H., Yamasaki, M., Kashyap, A., takahashi, N., Nakatsuka, M., Fukuyama, A., NISHIURA, Masaki, yoshida, Zensho, Mushiake, T., Kawazura, Y., Osawa, R., Fujinami, K., YANO, Y., SAITOH, H., Yamasaki, M., Kashyap, A., takahashi, N., Nakatsuka, M., and Fukuyama, A.

Abstract

The direct measurements of high-frequency electric fields in a plasma bring about significant advances in the physics and engineering of various waves. We have developed an electro-optic sensor system based on the Pockels effect. Since the signal is transmitted through an optical fiber, the system has high tolerance for electromagnetic noises. To demonstrate its applicability to plasma experiments, we report the first result of measurement of the ion-cyclotron wave excited in the RT-1 magnetosphere device. This study compares the results of experimental field measurements with simulation results of electric fields in plasmas., source:Review of Scientific Instruments 88, 023501 (2017); https://doi.org/10.1063/1.4974740, source:https://doi.org/10.1063/1.4974740, identifier:0000-0003-2410-7550

Published
2021

28. Effect of electrode surface roughness on breakdown conditioning under non-uniform electric field in vacuum

Author

Kato, K., Fukuoka, Y., Saitoh, H., Sakaki, M., and Okubo, H.

Subjects
Vacuum -- Analysis, Vacuum -- Electric properties, Surface roughness -- Analysis, Breakdown (Electricity) -- Analysis, Electrodes -- Analysis, Electrodes -- Properties, Business, Electronics, Electronics and electrical industries
Abstract

Breakdown (BD) characteristics in vacuum are strongly dependent on the electrode surface conditions, such as surface roughness. However, there is little known concerning the details of the relationship between the surface roughness and BD conditioning effect. In practical application, it is important to clarify how the surface roughness affects the breakdown conditioning characteristics, especially for the non-uniform field configuration. This paper discusses the effect of surface roughness on breakdown conditioning characteristics under non-uniform electric field in vacuum under applications of negative standard lightning impulse voltage. For this purpose, we examined the BD conditioning of a rod-to-plane electrode made of SUS304 and Cu-Cr. The surface roughness of [R.sub.a] is controlled from 0.3 to 2.5 [micro]m. Experimental results revealed that the enhancement of surface roughness of electrodes increases the number of BD to complete the conditioning effect. We explained the results from the observed results of the electrode surface. Consequently, we could clarify the effect of surface roughness on the conditioning effect under non-uniform electric field in vacuum quantitatively. Index Terms--Vacuum, conditioning effect, non-uniform electric field, lightning impulse voltage, vacuum circuit breaker, electrode surface roughness.

Published
2007

33. The blast pathogen effector AVR-Pik binds and stabilizes rice heavy metal-associated (HMA) proteins to co-opt their function in immunity

Author

Oikawa, K., primary, Fujisaki, K., additional, Shimizu, M., additional, Takeda, T., additional, Saitoh, H., additional, Hirabuchi, A., additional, Hiraka, Y., additional, Białas, A., additional, Langner, T., additional, Kellner, R., additional, Bozkurt, T. O., additional, Cesari, S., additional, Kroj, T., additional, Maidment, J. H. R., additional, Banfield, M. J., additional, Kamoun, S., additional, and Terauchi, R., additional

Published
2020
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47. ASACUSA MUSASHI: New progress with intense ultra slow antiproton beam

Author

Imao, H., primary, Tarek, M., additional, Michishio, K., additional, Enomoto, Y., additional, Shimoyama, T., additional, Kanai, Y., additional, Kuroda, N., additional, Mohri, A., additional, Higaki, H., additional, Saitoh, H., additional, Torii, H. A., additional, Nagata, Y., additional, Toyoda, H., additional, Matsuda, Y., additional, Nagashima, Y., additional, and Yamazaki, Y., additional

Published
2009
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48. Impulse partial discharge and breakdown characteristics of rod-plane gaps in [N.sub.2]/S[F.sub.6] gas mixtures

Author

Saitoh, H., Morita, K., Kikkawa, T., Hayakawa, N., and Okubo, H.

Subjects
Dielectric devices -- Research, Voltage -- Research, Business, Electronics, Electronics and electrical industries
Abstract

Impulse partial discharge (PD) and breakdown (BD) characteristics of rod-plane gaps in [N.sub.2]/S[F.sub.6] gas mixtures were investigated for different gap geometry, gas pressure and S[F.sub.6] gas content. Experimental results revealed that the 50% probability breakdown voltage increased with gas pressure, which agreed with the theoretical values with consideration of discharge time lag for impulse voltage application. For the calculation of discharge inception voltage, the volume-time theory was successfully applied to the [N.sub.2]/S[F.sub.6] gas mixture. Furthermore, impulse PD light emission image was observed together with PD current pulse and light intensity waveforms. The long discharge with stepwise propagation and double-peak PD pulses could be observed, which corresponded to the streamer/leader transition leading to breakdown.

Published
2002

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