Your search keyword '"Dodo, T."' showing total 110 results

1. A muon tagging with Flash ADC waveform baselines

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Lee, D. H., Cheoun, M. K., Choi, J. H., Choi, J. Y., Dodo, T., Goh, J., Haga, K., Harada, M., Hasegawa, S., Hwang, W., Iida, T., Jang, H. I., Jang, J. S., Joo, K. K., Jung, D. E., Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. M., Kim, S. B., Kim, S. Y., Kinoshita, H., Konno, T., Little, C., Maruyama, T., Marzec, E., Masuda, S., Meigo, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Pac, M. Y., Park, B. J., Park, H. W., Park, J. B., Park, Jisu, Park, J. S., Park, R. G., Peeters, S. J. M., Rott, C., Ryu, J. W., Sakai, K., Sakamoto, S., Shima, T., Shin, C. D., Spitz, J., Suekane, F., Sugaya, Y., Suzuya, K., Takeuchi, Y., Wang, W., Wei, W., Yamaguchi, Y., Yeh, M., Yeo, I. S., and Yu, I. more...

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

This manuscript describes an innovative method to tag the muons using the baseline information of the Flash ADC (FADC) waveform of PMTs in the JSNS1 (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) experiment. This experiment is designed for the search for sterile neutrinos, and a muon tagging is an essential key component for the background rejection since the detector of the experiment is located over-ground, where is the 3rd floor of the J-PARC Material and Life experimental facility (MLF). Especially, stopping muons inside the detector create the Michel electrons, and they are important background to be rejected. Utilizing this innovative method, more than 99.8% of Michel electrons can be rejected even without a detector veto region. This technique can be employed for any experiments which uses the similar detector configurations., Comment: 7 pages, 6 figures more...

Published

2025

2. The first JSNS$^2$ measurement of electron neutrino flux using $^{12}C(\nu_{e},e^{-}) ^{12}N_{g.s.}$ reaction

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Dodo, T., Cheoun, M. K., Choi, J. H., Choi, J. Y., Goh, J., Haga, K., Harada, M., Hasegawa, S., Hwang, W., Jang, H. I., Jang, J. S., Joo, K. K., Jung, D. E., Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. M., Kim, S. Y., Kim, S. B., Kinoshita, H., Konno, T., Lee, D. H., Little, C., Maruyama, T., Marzec, E., Masuda, S., Meigo, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Pac, M. Y., Park, B. J., Park, H. W., Park, J. B., Park, J. S., Park, R. G., Peeters, S. J. M., Ryu, J. W., Sakai, K., Sakamoto, S., Shima, T., Shin, C. D., Spitz, J., Suekane, F., Sugaya, Y., Suzuya, K., Yamaguchi, Y., Yeo, I. S., and Yu, I. more...

Subjects

High Energy Physics - Experiment

Abstract

JSNS$^2$ (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) is an experiment searching for sterile neutrinos through the observation of $\bar{\nu}_{\mu} \rightarrow \bar{\nu}_e$ appearance oscillations, using neutrinos produced by muon decay-at-rest. A key aspect of the experiment involves accurately understanding the neutrino flux and the quantities of pions and muons, which are progenitors of (anti-)neutrinos, given that their production rates have yet to be measured. We present the first electron-neutrino flux measurement using $^{12}\mathrm{C}(\nu_{e},e^{-}) ^{12}\mathrm{N}_{g.s.}$ reaction in JSNS$^2$, yielding a flux of (6.7 $\pm$ 1.6 (stat.) $\pm$ 1.7 (syst.)) $\times$ 10$^{-9}$ cm$^{-2}$ proton$^{-1}$ at the JSNS$^2$ detector location, located at 24 meters distance from the mercury target. This flux measurement is consistent with predictions from simulations based on hadron models. more...

Published

2024

3. First Measurement of Missing Energy Due to Nuclear Effects in Monoenergetic Neutrino Charged Current Interactions

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Author

Marzec, E., Ajimura, S., Antonakis, A., Botran, M., Cheoun, M. K., Choi, J. H., Choi, J. W., Choi, J. Y., Dodo, T., Furuta, H., Goh, J. H., Haga, K., Harada, M., Hasegawa, S., Hino, Y., Hiraiwa, T., Hwang, W., Iida, T., Iwai, E., Iwata, S., Jang, H. I., Jang, J. S., Jang, M. C., Jeon, H. K., Jeon, S. H., Joo, K. K., Jung, D. E., Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. J., Kim, J. Y., Kim, E. M., Kim, S. Y., Kim, W., Kim, S. B., Kinoshita, H., Konno, T., Kuwata, K., Lee, D. H., Lee, S., Lim, I. T., Little, C., Maruyama, T., Masuda, S., Meigo, S., Monjushiro, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Noumachi, M., Pac, M. Y., Park, B. J., Park, H. W., Park, J. B., Park, J. S., Park, R. G., Peeters, S. J. M., Roellinghoff, G., Rott, C., Ryu, J. W., Sakai, K., Sakamoto, S., Shima, T., Shin, C. D., Spitz, J., Stancu, I., Suekane, F., Sugaya, Y., Suzuya, K., Taira, M., Takeuchi, Y., Wang, W., Waterfield, J., Wei, W., White, R., Yamaguchi, Y., Yeh, M., Yeo, I. S., Yoo, C., Yu, I., and Zohaib, A. more...

Subjects

High Energy Physics - Experiment

Abstract

We present the first measurement of the missing energy due to nuclear effects in monoenergetic, muon neutrino charged-current interactions on carbon, originating from $K^+ \rightarrow \mu^+ \nu_\mu$ decay at rest ($E_{\nu_\mu}=235.5$ MeV), performed with the J-PARC Sterile Neutrino Search at the J-PARC Spallation Neutron Source liquid scintillator based experiment. Toward characterizing the neutrino interaction, ostensibly $\nu_\mu n \rightarrow \mu^- p$ or $\nu_\mu$$^{12}\mathrm{C}$ $\rightarrow \mu^-$$^{12}\mathrm{N}$, we define the missing energy as the energy transferred to the nucleus ($\omega$) minus the kinetic energy of the outgoing proton(s), $E_{m} \equiv\omega-\sum T_p$, and relate this to visible energy in the detector, $E_{m}=E_{\nu_\mu} (235.5 \mathrm{MeV})-m_\mu (105.7 \mathrm{MeV}) + [m_n-m_p (1.3 \mathrm{MeV})] - E_{\mathrm{vis}}$. The missing energy, which is naively expected to be zero in the absence of nuclear effects (e.g. nucleon separation energy, Fermi momenta, and final-state interactions), is uniquely sensitive to many aspects of the interaction, and has previously been inaccessible with neutrinos. The shape-only, differential cross section measurement reported, based on a $(77\pm3)$% pure double-coincidence kaon decay-at-rest signal (621 total events), provides detailed insight into neutrino-nucleus interactions, allowing even the nuclear orbital shell of the struck nucleon to be inferred. The measurement provides an important benchmark for models and event generators at hundreds of MeV neutrino energies, characterized by the difficult-to-model transition region between neutrino-nucleus and neutrino-nucleon scattering, and relevant for applications in nuclear physics, neutrino oscillation measurements,and Type-II supernova studies. more...

Published

2024

4. Evaluation of the performance of the event reconstruction algorithms in the JSNS$^2$ experiment using a $^{252}$Cf calibration source

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Lee, D. H., Cheoun, M. K., Choi, J. H., Choi, J. Y., Dodo, T., Goh, J., Haga, K., Harada, M., Hasegawa, S., Hwang, W., Iida, T., Jang, H. I., Jang, J. S., Joo, K. K., Jung, D. E., Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. J., Kim, J. Y., Kim, S. B, Kim, W., Kinoshita, H., Konno, T., Lim, I. T., Little, C., Marzec, E., Maruyama, T., Masuda, S., Meigo, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Pac, M. Y., Park, H. W., Park, J. S., Park, R. G., Peeters, S. J. M., Rott, C., Sakai, K., Sakamoto, S., Shima, T., Spitz, J., Suekane, F., Sugaya, Y., Suzuya, K., Takeuchi, Y., Yamaguchi, Y., Yeh, M., Yeo, I. S., Yoo, C., and Yu, I. more...

Subjects

High Energy Physics - Experiment, Physics - Instrumentation and Detectors

Abstract

JSNS$^2$ searches for short baseline neutrino oscillations with a baseline of 24~meters and a target of 17~tonnes of the Gd-loaded liquid scintillator. The correct algorithm on the event reconstruction of events, which determines the position and energy of neutrino interactions in the detector, are essential for the physics analysis of the data from the experiment. Therefore, the performance of the event reconstruction is carefully checked with calibrations using $^{252}$Cf source. This manuscript describes the methodology and the performance of the event reconstruction. more...

Published

2024

5. Pulse Shape Discrimination in JSNS$^2$

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Dodo, T., Cheoun, M. K., Choi, J. H., Choi, J. Y., Goh, J., Haga, K., Harada, M., Hasegawa, S., Hwang, W., Iida, T., Jang, H. I., Jang, J. S., Joo, K. K., Jung, D. E., Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. J., Kim, J. Y., Kim, S. B., Kim, W., Kinoshita, H., Konno, T., Lee, D. H., Lim, I. T., Little, C., Marzec, E., Maruyama, T., Masuda, S., Meigo, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Pac, M. Y., Park, H. W., Park, J. S., Park, R. G., Peeters, S. J. M., Rott, C., Sakai, K., Sakamoto, S., Shima, T., Shin, C. D., Spitz, J., Suekane, F., Sugaya, Y., Suzuya, K., Takeuchi, Y., Yamaguchi, Y., Yeh, M., Yeo, I. S., Yoo, C., and Yu, I. more...

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

JSNS$^2$ (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) is an experiment that is searching for sterile neutrinos via the observation of $\bar{\nu}_{\mu} \rightarrow \bar{\nu}_e$ appearance oscillations using neutrinos with muon decay-at-rest. For this search, rejecting cosmic-ray-induced neutron events by Pulse Shape Discrimination (PSD) is essential because the JSNS$^2$ detector is located above ground, on the third floor of the building. We have achieved 95$\%$ rejection of neutron events while keeping 90$\%$ of signal, electron-like events using a data driven likelihood method., Comment: arXiv admin note: text overlap with arXiv:2111.07482, arXiv:2308.02722 more...

Published

2024

6. The acrylic vessel for JSNS$^{2}$-II neutrino target

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Shin, C. D., Ajimura, S., Cheoun, M. K., Choi, J. H., Choi, J. Y., Dodo, T., Goh, J., Haga, K., Harada, M., Hasegawa, S., Hiraiwa, T., Hwang, W., Iida, T., Jang, H. I., Jang, J. S., Jeon, H., Jeon, S., Joo, K. K., Jung, D. E., Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. J., Kim, J. Y., Kim, S. B., Kim, W., Kinoshita, H., Konno, T., Lee, D. H., Lim, I. T., Little, C., Marzec, E., Maruyama, T., Masuda, S., Meigo, S., Monjushiro, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Pac, M. Y., Park, H. W., Park, J. S., Park, R. G., Peeters, S. J. M., Rott, C., Sakai, K., Sakamoto, S., Shima, T., Spitz, J., Suekane, F., Sugaya, Y., Suzuya, K., Taira, M., Takeuchi, Y., Yamaguchi, Y., Yeh, M., Yeo, I. S., Yoo, C., and Yu, I. more...

Subjects

High Energy Physics - Experiment, Physics - Instrumentation and Detectors

Abstract

The JSNS$^{2}$ (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) is an experiment designed for the search for sterile neutrinos. The experiment is currently at the stage of the second phase named JSNS$^{2}$-II with two detectors at near and far locations from the neutrino source. One of the key components of the experiment is an acrylic vessel, that is used for the target volume for the detection of the anti-neutrinos. The specifications, design, and measured properties of the acrylic vessel are described. more...

Published

2023

7. Study on the accidental background of the JSNS$^2$ experiment

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Lee, D. H., Ajimura, S., Cheoun, M. K., Choi, J. H., Choi, J. Y., Dodo, T., Goh, J., Haga, K., Harada, M., Hasegawa, S., Hiraiwa, T., Hwang, W., Jang, H. I., Jang, J. S., Jeon, H., Jeon, S., Joo, K. K., Jung, D. E., Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. J., Kim, J. Y., Kim, S. B., Kim, W., Kinoshita, H., Konno, T., Lim, I. T., Little, C., Marzec, E., Maruyama, T., Masuda, S., Meigom, S., Monjushiro, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Pac, M. Y., Park, H. W., Park, J. S., Park, R. G., Peeters, S. J. M., Rott, C., Sakai, K., Sakamoto, S., Shima, T., Shin, C. D., Spitz, J., Suekane, F., Sugaya, Y., Suzuya, K., Taira, M., Yamaguchi, Y., Yeh, M., Yeo, I. S., Yoo, C., and Yu, I. more...

Subjects

High Energy Physics - Experiment, Physics - Instrumentation and Detectors

Abstract

JSNS$^2$ (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) is an experiment which searches for sterile neutrinos via the observation of $\bar{\nu}_{\mu} \to \bar{\nu}_{e}$ appearance oscillations using muon decay-at-rest neutrinos. The data taking of JSNS$^2$ have been performed from 2021. In this manuscript, a study of the accidental background is presented. The rate of the accidental background is (9.29$\pm 0.39) \times 10^{-8}$ / spill with 0.75 MW beam power and comparable to the number of searching signals., Comment: arXiv admin note: substantial text overlap with arXiv:2111.07482 more...

Published

2023

8. Characterization of the correlated background for a sterile neutrino search using the first dataset of the JSNS$^2$ experiment

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Hino, Y., Ajimura, S., Cheoun, M. K., Choi, J. H., Dodo, T., Furuta, H., Goh, J., Haga, K., Harada, M., Hasegawa, S., Hiraiwa, T., Hwang, W., Jang, H. I., Jang, J. S., Jeon, H., Jeon, S., Joo, K. K., Jordan, J. R., Jung, D. E., Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. J., Kim, J. Y., Kim, S. B., Kim, S. Y., Kim, W., Kinoshita, H., Konno, T., Lee, C. Y., Lee, D. H., Lee, S., Lim, I. T., Little, C., Marzec, E., Maruyama, T., Masuda, S., Meigo, S., Monjushiro, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Nomachi, M., Pac, M. Y., Park, J. S., Park, R. G., Peeters, S. J. M., Ray, H., Rott, C., Sakai, K., Sakamoto, S., Shima, T., Shin, C. D., Spitz, J., Suekane, F., Sugaya, Y., Suzuya, K., Taira, M., Ujiie, R., Yamaguchi, Y., Yeh, M., Yeo, I. S., Yoo, C., and Yu, I. more...

Subjects

High Energy Physics - Experiment

Abstract

JSNS$^2$ (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) is an experiment that is searching for sterile neutrinos via the observation of $\bar{\nu}_{\mu} \to \bar{\nu}_{e}$ appearance oscillations using muon decay-at-rest neutrinos. Before dedicated data taking in the first-half of 2021, we performed a commissioning run for 10 days in June 2020. Using the data obtained in this commissioning run, in this paper, we present an estimate of the correlated background which imitates the $\bar{\nu}_{e}$ signal in a sterile neutrino search. In addition, in order to demonstrate future prospects of the JSNS$^2$ experiment, possible pulse shape discrimination improvements towards reducing cosmic ray induced fast neutron background are described., Comment: 7 pages, 3 figures more...

Published

2021

9. The JSNS^2 Detector

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Author

Ajimura, S., Botran, M., Choi, J. H., Choi, J. W., Cheoun, M. K., Dodo, T., Furuta, H., Goh, J., Haga, K., Harada, M., Hasegawa, S., Hino, Y., Hiraiwa, T., Jang, H. I., Jang, J. S., Jang, M. C., Jeon, H., Jeon, S., Joo, K. K., Jordan, J. R., Jung, D. E., Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. J., Kim, J. Y., Kim, S. B., Kim, W., Kinoshita, H., Konno, T., Lee, D. H., Lee, S., Lim, I. T., Marzec, E., Maruyama, T., Masuda, S., Meigo, S., Monjushiro, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Nomachi, M., Pac, M. Y., Park, J. S., Peeters, S. J. M., Ray, H., Roellinghoff, G., Rott, C., Sakai, K., Sakamoto, S., Shima, T., Shin, C. D., Spitz, J., Stancu, I., Sugaya, Y., Suekane, F., Suzuya, K., Taira, M., Ujiie, R., Yamaguchi, Y., Yeh, M., Yeo, I. S., Yoo, C., Yu, I., and Zohaib, A. more...

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

The JSNS^2 (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) experiment aims to search for oscillations involving a sterile neutrino in the eV^2 mass-splitting range. The experiment will search for the appearance of electron antineutrinos oscillated from muon antineutrinos. The electron antineutrinos are detected via the inverse beta decay process using a liquid scintillator detector. A 1MW beam of 3 GeV protons incident on a spallation neutron target produces an intense and pulsed neutrino source from pion, muon, and kaon decay at rest. The JSNS^2 detector is located 24 m away from the neutrino source and began operation from June 2020. The detector contains 17 tonnes of gadolinium (Gd) loaded liquid scintillator (LS) in an acrylic vessel, as a neutrino target. It is surrounded by 31 tonnes of unloaded LS in a stainless steel tank. Optical photons produced in LS are viewed by 120 R7081 Hamamatsu 10-inch Photomultiplier Tubes (PMTs). In this paper, we describe the JSNS^2 detector design, construction, and operation., Comment: 41 pages, 29 figures more...

Published

2021

10. Proposal: JSNS$^2$-II

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Author

Ajimura, S., Botran, M., Choi, J. H., Choi, J. W., Cheoun, M. K., Dodo, T., Furuta, H., Goh, J., Haga, K., Harada, M., Hasegawa, S., Hino, Y., Hiraiwa, T., Jang, H. I., Jang, J. S., Jang, M. C., Jeon, H., Jeon, S., Joo, K. K., Jordan, J. R., EJung, D., Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. J., Kim, J. Y., Kim, S. B., Kim, S. Y., Kim, W., Konno, T., Kinoshita, H., Lee, D. H., Lee, S., Lim, I. T., Marzec, E., Maruyama, T., Masuda, S., Meigo, S., Monjushiro, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Nomachi, M., Pac, M. Y., Park, J. S., Peeters, S. J. M., Ray, H., Roellinghoff, G., Rott, C., Sakai, K., Sakamoto, S., Shima, T., Shin, C. D., Spitz, J., Stancu, I., Sugaya, Y., Suekane, F., Suzuya, K., Taira, M., Ujiie, R., Yamaguchi, Y., Yeh, M., Yeo, I. S., Yoo, C., Yu, I., and Zohaib, A. more...

Subjects

High Energy Physics - Experiment

Abstract

This article describes the goal and expected sensitivity of the JSNS$^2$-II experiment at J-PARC Materials and Life Science Experimental Facility (MLF). The JSNS$^2$-II experiment is the second phase of the JSNS$^2$ experiment (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) with two detectors which are located in 24 m (an existing detector) and 48 m (new one) baselines to improve the sensitivity of the search for sterile neutrinos, especially in the low $\Delta m^2$ region, which has been indicated by the global fit of the appearance mode. The new second detector has a similar structure as the existing JSNS$^2$ detector, which is already working. To compensate for the reduction of the neutrino flux due to the distance from the mercury target, the target mass of the Gd-loaded liquid scintillator which is the Linear AlkylBenzene (LAB) based liquid scintillator inside the acrylic vessel is 35 tons. To keep the same photo-coverage of the detector as the first detector, we will surround the acrylic vessel with 240 PMTs. With this experimental setup and 5 years (times 1 MW beam power) exposure, the sensitivity of the JSNS$^2$-II is significantly improved compared to the current JSNS$^2$, especially in the low $\Delta m^2$ oscillation parameter region. The JSNS$^2$-II can also confirm or refute the most of the oscillation parameters' space preferred by the previous experiments with 3 sigma C.L.. Considering these situations and world wide status of the sterile neutrino searches, we are eager to start the data taking with the two detector configuration from 2023. The fund to build the second detector was already secured. more...

Published

2020

11. The JSNS$^{2}$ data acquisition system

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Author

Park, J. S., Ajimura, S., Botran, M., Cheoun, M. K., Choi, J. H., Dodo, T., Furuta, H., Gwak, P., Harada, M., Hasegawa, S., Hino, Y., Hiraiwa, T., Jang, H. I., Jang, J. S., Jang, M., Jeon, H., Jeon, S., Joo, K. K., Jordan, J. R., Jung, D. E., Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. J., Kim, J. Y., Kim, S. B., Kim, S. Y., Kim, W., Konno, T., Kwon, E., Lee, D. H., Lim, I. T., Maruyama, T., Marzec, E., Meigo, S., Monjushiro, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Nomachi, M., Pac, M. Y., Peeters, S. J. M., Ray, H., Rott, C., Sakai, K., Sakamoto, S., Seo, H., Seo, J. H., Shima, T., Shin, C. D., Spitz, J., Stancu, I., Suekane, F., Sugaya, Y., Suzuya, K., Taira, M., Ujiie, R., Yeh, M., Yu, I., and Zohaib, A. more...

Subjects

Physics - Instrumentation and Detectors, High Energy Physics - Experiment

Abstract

The JSNS$^{2}$ (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) experiment aims to search for neutrino oscillations over a 24 m short baseline at J-PARC. The JSNS$^{2}$ inner detector is filled with 17 tons of gadolinium(Gd)-loaded liquid scintillator (LS) with an additional 31 tons of unloaded LS in the intermediate $\gamma$-catcher and an optically separated outer veto volumes. A total of 120 10-inch photomultiplier tubes observe the scintillating optical photons and each analog waveform is stored with the flash analog-to-digital converters. We present details of the data acquisition, processing, and data quality monitoring system. We also present two different trigger logics which are developed for the beam and self-trigger., Comment: 11 pages, 8 figures more...

Published

2020

12. Performance of PMTs for the JSNS2 experiment

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Author

Park, J. S., Furuta, H., Maruyama, T., Monjushiro, S., Nishikawa, K., Taira, M., Jang, J. S., Joo, K. K., Kim, J. Y., Lim, I. T., Moon, D. H., Seo, J. H., Shin, C. D., Zohaib, A., Gwak, P., Jang, M., Ajimura, S., Hiraiwa, T., Nakano, T., Nomachi, M., Shima, T., Sugaya, Y., Cheoun, M. K., Choi, J. H., Pac, M. Y., Dodo, T., Hino, Y., Suekane, F., Ujiie, R., Harada, M., Hasegawa, S., Kasugai, Y., Meigo, S., Sakai, K., Sakamoto, S., Suzuya, K., Jordan, J. R., Spitz, J., Marzec, E., Botran, M., Kawasaki, T., Konno, T., Jang, H. I., Kang, S. K., Kim, E. J., Seo, H., Kim, S. Y., Kim, W., Niiyama, M., Peeters, S. J. M., Ray, H., Rott, C., Yu, I., Jeon, H., Jeon, S., Jung, D. E., Kim, S. B., Kwon, E., Lee, D. H., Stancu, I., and Yeh, M. more...

Subjects

Physics - Instrumentation and Detectors

Abstract

The JSNS$^{2}$ (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) experiment aims to search for neutrino oscillations over a 24\,m short baseline at J-PARC. The JSNS$^{2}$ inner detector is filled with 17 tons of gadolinium-loaded liquid scintillator (LS) and both the intermediate $\gamma$-catcher and the optically separated outer veto are filled with un-loaded LS. Optical photons from scintillation are observed by 120 Photomultiplier Tubes (PMTs). A total of 130 PMTs for the JSNS2 experiment were both donated by other experiments and purchased from Hamamatsu. Donated PMTs were purchased around 10 years ago, therefore JSNS$^{2}$ did pre-calibration of the PMTs including the purchased PMTs. 123 PMTs demonstrated acceptable performance for the JSNS$^{2}$ experiment, and 120 PMTs were installed in the detector. more...

Published

2020

13. Slow control and monitoring system at the JSNS$^{2}$

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Author

Park, J. S., Ajimura, S., Botran, M., Choi, J. H., Choi, J. W., Cheoun, M. K., Dodo, T., Furuta, H., Goh, J., Harada, M., Hasegawa, S., Hino, Y., Hiraiwa, T., Jang, H. I., Jang, J. S., Jang, M. C., Jeon, H., Jeon, S., Joo, K. K., Jordan, J. R., Jung, D. E, Kang, S. K., Kasugai, Y., Kawasaki, T., Kim, E. J., Kim, J. Y., Kim, S. B., Kim, W., Konno, T., Lee, D. H., Lee, S., Lim, I. T., Marzec, E., Maruyama, T., Meigo, S., Monjushiro, S., Moon, D. H., Nakano, T., Niiyama, M., Nishikawa, K., Nomachi, M., Pac, M. Y., Peeters, S. J. M., Ray, H., Roellingho, G., Rott, C., Sakai, K., Sakamoto, S., Shima, T., Shin, C. D., Spitz, J., Stancu, I., Sugaya, Y., Suekane, F., Suzuya, K., Taira, M., Ujiie, R., Yeh, M., Yeo, I. S., Yoo, C., Yu, I., and Zohaib, A. more...

Subjects

Physics - Instrumentation and Detectors

Abstract

The JSNS$^2$ experiment is aimed to search for sterile neutrino oscillations using a neutrino beam from muon decays at rest. The JSNS$^2$ detector contains 17 tons of 0.1\% gadolinium (Gd) loaded liquid scintillator (LS) as a neutrino target. Detector construction was completed in the spring of 2020. A slow control and monitoring system (SCMS) was implemented for reliable control and quick monitoring of the detector operational status and environmental conditions. It issues an alarm if any of the monitored parameters exceed a preset acceptable range. The SCMS monitors the high voltage (HV) of the photomultiplier tubes (PMTs), the LS level in the detector, possible LS overflow and leakage, the temperature and air pressure in the detector, the humidity of the experimental hall, and the LS flow rate during filling and extraction. An initial 10 days of data-taking with a neutrino beam was done following a successful commissioning of the detector and SCMS in June 2020. In this paper, we present a description of the assembly and installation of the SCMS and its performance., Comment: 12 pages, 11 figures more...

Published

2020

14. Study on the accidental background of the JSNS2 experiment.

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Author

Lee, D. H., Ajimura, S., Cheoun, M. K., Choi, J. H., Choi, J. Y., Dodo, T., Goh, J., Haga, K., Harada, M., Hasegawa, S., Hiraiwa, T., Hwang, W., Jang, H. I., Jang, J. S., Jeon, H., Jeon, S., Joo, K. K., Jung, D. E., Kang, S. K., and Kasugai, Y. more...

Subjects

STERILE neutrinos, NEUTRON sources, NEUTRINOS, NEUTRAL beams

Abstract

JSNS 2 (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) is an experiment that searches for sterile neutrinos via the observation of ν ¯ μ → ν ¯ e appearance oscillations using muon decay-at-rest neutrinos. The JSNS 2 experiment performed data taking from 2021. In this manuscript, a study of the accidental background is presented. The rate of the accidental background is ( 9.29 ± 0.39) × 10 - 8 /spill with 0.75 MW beam power and comparable to the expected number of signal events. [ABSTRACT FROM AUTHOR] more...

Published

2024

15. Characterization of the correlated background for a sterile neutrino search using the first dataset of the JSNS $$^2$$ <math> <msup> <mrow></mrow> <mn>2</mn> </msup> </math> experiment

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Author

Hino, Y., Ajimura, S., Cheoun, M., Choi, J., Dodo, T., Furuta, H., Goh, J., Haga, K., Harada, M., Hasegawa, S., Hiraiwa, T., Hwang, W., Jang, H., Jang, J., Jeon, H., Jeon, S., Joo, K., Jordan, J., Jung, D., Kang, S., Kasugai, Y., Kawasaki, T., Kim, E., Kim, J., Kim, S., Kim, W., Kinoshita, H., Konno, T., Lee, C., Lee, D., Lee, S., Lim, I., Little, C., Marzec, E., Maruyama, T., Masuda, S., Meigo, S., Monjushiro, S., Moon, D., Nakano, T., Niiyama, M., Nishikawa, K., Nomachi, M., Pac, M., Park, J., Park, R., Peeters, S., Ray, H., Rott, C., Sakai, K., Sakamoto, S., Shima, T., Shin, C., Spitz, J., Suekane, F., Sugaya, Y., Suzuya, K., Taira, M., Ujiie, R., Yamaguchi, Y., Yeh, M., Yeo, I., Yoo, C., and Yu, I. more...

Abstract

JSNS $$^2$$ 2 (J-PARC Sterile Neutrino Search at J-PARC Spallation Neutron Source) is an experiment that is searching for sterile neutrinos via the observation of $${\bar{\nu }}_{\mu } \rightarrow {\bar{\nu }}_{e}$$ ν ¯ μ → ν ¯ e appearance oscillations using muon decay-at-rest neutrinos. Before dedicated data taking in the first-half of 2021, we performed a commissioning run for 10 days in June 2020. Using the data obtained in this commissioning run, in this paper, we present an estimate of the correlated background which imitates the $${\bar{\nu }}_{e}$$ ν ¯ e signal in a sterile neutrino search. In addition, in order to demonstrate future prospects of the JSNS $$^2$$ 2 experiment, possible pulse shape discrimination improvements towards reducing cosmic ray induced fast neutron background are described. more...

Published

2022

16. Characterization of the correlated background for a sterile neutrino search using the first dataset of the JSNS$$^2$$ experiment

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Author

Hino, Y., primary, Ajimura, S., additional, Cheoun, M. K., additional, Choi, J. H., additional, Dodo, T., additional, Furuta, H., additional, Goh, J., additional, Haga, K., additional, Harada, M., additional, Hasegawa, S., additional, Hiraiwa, T., additional, Hwang, W., additional, Jang, H. I., additional, Jang, J. S., additional, Jeon, H., additional, Jeon, S., additional, Joo, K. K., additional, Jordan, J. R., additional, Jung, D. E., additional, Kang, S. K., additional, Kasugai, Y., additional, Kawasaki, T., additional, Kim, E. J., additional, Kim, J. Y., additional, Kim, S. B., additional, Kim, W., additional, Kinoshita, H., additional, Konno, T., additional, Lee, C. Y., additional, Lee, D. H., additional, Lee, S., additional, Lim, I. T., additional, Little, C., additional, Marzec, E., additional, Maruyama, T., additional, Masuda, S., additional, Meigo, S., additional, Monjushiro, S., additional, Moon, D. H., additional, Nakano, T., additional, Niiyama, M., additional, Nishikawa, K., additional, Nomachi, M., additional, Pac, M. Y., additional, Park, J. S., additional, Park, R. G., additional, Peeters, S. J. M., additional, Ray, H., additional, Rott, C., additional, Sakai, K., additional, Sakamoto, S., additional, Shima, T., additional, Shin, C. D., additional, Spitz, J., additional, Suekane, F., additional, Sugaya, Y., additional, Suzuya, K., additional, Taira, M., additional, Ujiie, R., additional, Yamaguchi, Y., additional, Yeh, M., additional, Yeo, I. S., additional, Yoo, C., additional, and Yu, I., additional more...

Published

2022

17. The JSNS2 detector

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Author

Ajimura, S., primary, Botran, M., additional, Choi, J.H., additional, Choi, J.W., additional, Cheoun, M.K., additional, Dodo, T., additional, Furuta, H., additional, Goh, J., additional, Haga, K., additional, Harada, M., additional, Hasegawa, S., additional, Hino, Y., additional, Hiraiwa, T., additional, Jang, H.I., additional, Jang, J.S., additional, Jang, M.C., additional, Jeon, H., additional, Jeon, S., additional, Joo, K.K., additional, Jordan, J.R., additional, Jung, D.E., additional, Kang, S.K., additional, Kasugai, Y., additional, Kawasaki, T., additional, Kim, E.J., additional, Kim, J.Y., additional, Kim, S.B., additional, Kim, W., additional, Kinoshita, H., additional, Konno, T., additional, Lee, D.H., additional, Lee, S., additional, Lim, I.T., additional, Marzec, E., additional, Maruyama, T., additional, Masuda, S., additional, Meigo, S., additional, Monjushiro, S., additional, Moon, D.H., additional, Nakano, T., additional, Niiyama, M., additional, Nishikawa, K., additional, Nomachi, M., additional, Pac, M.Y., additional, Park, J.S., additional, Peeters, S.J.M., additional, Ray, H., additional, Roellinghoff, G., additional, Rott, C., additional, Sakai, K., additional, Sakamoto, S., additional, Shima, T., additional, Shin, C.D., additional, Spitz, J., additional, Stancu, I., additional, Sugaya, Y., additional, Suekane, F., additional, Suzuya, K., additional, Taira, M., additional, Ujiie, R., additional, Yamaguchi, Y., additional, Yeh, M., additional, Yeo, I.S., additional, Yoo, C., additional, Yu, I., additional, and Zohaib, A., additional more...

Published

2021

18. Slow control and monitoring system at the JSNS2

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Author

Park, J S, primary, Ajimura, S, additional, Botran, M, additional, Choi, J H, additional, Choi, J W, additional, Cheoun, M K, additional, Dodo, T, additional, Furuta, H, additional, Goh, J, additional, Harada, M, additional, Hasegawa, S, additional, Hino, Y, additional, Hiraiwa, T, additional, Jang, H I, additional, Jang, J S, additional, Jang, M C, additional, Jeon, H, additional, Jeon, S, additional, Joo, K K, additional, Jordan, J R, additional, Jung, D E, additional, Kang, S K, additional, Kasugai, Y, additional, Kawasaki, T, additional, Kim, E J, additional, Kim, J Y, additional, Kim, S B, additional, Kim, W, additional, Konno, T, additional, Lee, D H, additional, Lee, S, additional, Lim, I T, additional, Marzec, E, additional, Maruyama, T, additional, Meigo, S, additional, Monjushiro, S, additional, Moon, D H, additional, Nakano, T, additional, Niiyama, M, additional, Nishikawa, K, additional, Nomachi, M, additional, Pac, M Y, additional, Peeters, S J M, additional, Ray, H, additional, Roellinghoff, G, additional, Rott, C, additional, Sakai, K, additional, Sakamoto, S, additional, Shima, T, additional, Shin, C D, additional, Spitz, J, additional, Stancu, I, additional, Sugaya, Y, additional, Suekane, F, additional, Suzuya, K, additional, Taira, M, additional, Ujiie, R, additional, Yeh, M, additional, Yeo, I S, additional, Yoo, C, additional, Yu, I, additional, and Zohaib, A, additional more...

Published

2021

19. The JSNS2 data acquisition system

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Author

Park, J.S., primary, Ajimura, S., additional, Botran, M., additional, Cheoun, M.K., additional, Choi, J.H., additional, Dodo, T., additional, Furuta, H., additional, Gwak, P., additional, Harada, M., additional, Hasegawa, S., additional, Hino, Y., additional, Hiraiwa, T., additional, Jang, H.I., additional, Jang, J.S., additional, Jang, M., additional, Jeon, H., additional, Jeon, S., additional, Joo, K.K., additional, Jordan, J.R., additional, Jung, D.E., additional, Kang, S.K., additional, Kasugai, Y., additional, Kawasaki, T., additional, Kim, E.J., additional, Kim, J.Y., additional, Kim, S.B., additional, Kim, S.Y., additional, Kim, W., additional, Konno, T., additional, Kwon, E., additional, Lee, D.H., additional, Lim, I.T., additional, Maruyama, T., additional, Marzec, E., additional, Meigo, S., additional, Monjushiro, S., additional, Moon, D.H., additional, Nakano, T., additional, Niiyama, M., additional, Nishikawa, K., additional, Nomachi, M., additional, Pac, M.Y., additional, Peeters, S.J.M., additional, Ray, H., additional, Rott, C., additional, Sakai, K., additional, Sakamoto, S., additional, Seo, H., additional, Seo, J.H., additional, Shima, T., additional, Shin, C.D., additional, Spitz, J., additional, Stancu, I., additional, Suekane, F., additional, Sugaya, Y., additional, Suzuya, K., additional, Taira, M., additional, Ujiie, R., additional, Yeh, M., additional, Yu, I., additional, and Zohaib, A., additional more...

Published

2020

20. Performance of PMTs for the JSNS2 experiment

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Author

Park, J.S., primary, Furuta, H., additional, Maruyama, T., additional, Monjushiro, S., additional, Nishikawa, K., additional, Taira, M., additional, Jang, J.S., additional, Joo, K.K., additional, Kim, J.Y., additional, Lim, I.T., additional, Moon, D.H., additional, Seo, J.H., additional, Shin, C.D., additional, Zohaib, A., additional, Gwak, P., additional, Jang, M., additional, Ajimura, S., additional, Hiraiwa, T., additional, Nakano, T., additional, Nomachi, M., additional, Shima, T., additional, Sugaya, Y., additional, Cheoun, M.K., additional, Choi, J.H., additional, Pac, M.Y., additional, Dodo, T., additional, Hino, Y., additional, Suekane, F., additional, Ujiie, R., additional, Harada, M., additional, Hasegawa, S., additional, Kasugai, Y., additional, Meigo, S., additional, Sakai, K., additional, Sakamoto, S., additional, Suzuya, K., additional, Jordan, J.R., additional, Spitz, J., additional, Marzec, E., additional, Botran, M., additional, Kawasaki, T., additional, Konno, T., additional, Jang, H.I., additional, Kang, S.K., additional, Kim, E.J., additional, Seo, H., additional, Kim, S.Y., additional, Kim, W., additional, Niiyama, M., additional, Peeters, S.J. M., additional, Ray, H., additional, Rott, C., additional, Yu, I., additional, Jeon, H., additional, Jeon, S., additional, Jung, D.E., additional, Kim, S.B., additional, Kwon, E., additional, Lee, D.H., additional, Stancu, I., additional, and Yeh, M., additional more...

Published

2020

21. Study of acetylsalicylic acid-induced skeletal abnormalities in rat fetus: 1–05

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Author

Dodo, T., Fukuta, T., Uchida, K., Noda, Y., Kato, E., Shiraishi, I., Horiba, T., Kojima, C., Mineshima, H., Okuda, Y., Okada, F., and Aoki, T.

Published

2006

22. Slow control and monitoring system at the JSNS2.

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Author

Park, J S, Ajimura, S, Botran, M, Choi, J H, Choi, J W, Cheoun, M K, Dodo, T, Furuta, H, Goh, J, Harada, M, Hasegawa, S, Hino, Y, Hiraiwa, T, Jang, H I, Jang, J S, Jang, M C, Jeon, H, Jeon, S, Joo, K K, and Jordan, J R more...

Subjects

NEUTRON sources, SPALLATION (Nuclear physics), NEUTRINOS, NEUTRINO beams, MUON decay

Abstract

The Sterile Neutrino Search at the J-PARC Spallation Neutron Source (JSNS |$^2$|⁠) experiment aims to search for sterile neutrino oscillations using a neutrino beam from muon decays at rest. The JSNS |$^2$| detector contains 17 tons of 0.1 |$\%$| gadolinium (Gd) loaded liquid scintillator (LS) as a neutrino target. Detector construction was completed in the spring of 2020. A slow control and monitoring system (SCMS) was implemented for reliable control and quick monitoring of the detector operational status and environmental conditions. It issues an alarm if any of the monitored parameters exceed a preset acceptable range. The SCMS monitors the high voltage of the photomultiplier tubes, the LS level in the detector, possible LS overflow and leakage, the temperature and air pressure in the detector, the humidity of the experimental hall, and the LS flow rate during filling and extraction. An initial 10 days of data-taking with a neutrino beam was done following a successful commissioning of the detector and SCMS in 2020 June. In this paper, we present a description of the assembly and installation of the SCMS and its performance. [ABSTRACT FROM AUTHOR] more...

Published

2021

23. Addition of Amide Proton Transfer Imaging to FDG-PET/CT Improves Diagnostic Accuracy in Glioma Grading: A Preliminary Study Using the Continuous Net Reclassification Analysis

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Author

Sakata, A., primary, Okada, T., additional, Yamamoto, Y., additional, Fushimi, Y., additional, Dodo, T., additional, Arakawa, Y., additional, Mineharu, Y., additional, Schmitt, B., additional, Miyamoto, S., additional, and Togashi, K., additional more...

Published

2018

24. Increases in discontinuous rib cartilage and fused carpal bone in rat fetuses exposed to the teratogens, busulfan, acetazolamide, vitamin A, and ketoconazole

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Author

Dodo, T., primary, Uchida, K., additional, Hirose, T., additional, Fukuta, T., additional, Kojima, C., additional, Shiraishi, I., additional, Kato, E., additional, Horiba, T., additional, Mineshima, H., additional, Okuda, Y., additional, Maeda, M., additional, Katsutani, N., additional, Hirano, K., additional, and Aoki, T., additional more...

Published

2010

25. STIMULATION EXPERIMENTS ON THE AMYGDALOID NUCLEAR COMPLEX AND RELATED STRUCTURES EFFECTS UPON THE RENAL VOLUME, URINARY SECRETION, MOVEMENTS OF THE URINARY BLADDER, BLOOD PRESSURE AND RESPIRATORY MOVEMENTS.

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Author

Koikegami, H., Dodo, T., Mochida, Y., and Takahashi, H.

Published

1957

26. The discharge phenomena of neutral gas by the electron beam

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Author

TAKAHASHI, K., SASAKI, SUSUMU, KAWASHIMA, NOBUKI, DODO, T., KATO, Y., and TEII, S.

Abstract

Arガス中に電子ビームを入射しBeam-Plasma-Dischargeを起こしてプラズマを発生させ, このbeam-plasma系の時間変化を調べた。B. P. D発生の前後でこの系に励起される波動のパターンは大きく変化する。また, B. P. Dの発生と同時に電子ビームのエネルギー分布関数は変形を始め最終的には平担になってしまう。このことはB. P. Dがビームとプラズマ波との強い非線現象であることを示している。, The transient development of the beam-plasma system produced by Beam-plasma-Discharge (B. P. D) emitting the electron beam into Ar has been studied. Before and after the B. P. D ignition, the pattern of waves that appear in the system drastically changes. And the energy distribution function of the electron beam begins to collapse from the B. P. D ignition, and changes flat finally. This fact shows that the B. P. D is the non-linear phenomena between electron beam and plasma waves., 資料番号: SA0166678000 more...

Published

1985

27. H. Cataracts

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Author

Dodo T

Subjects

Gerontology, Pediatrics, medicine.medical_specialty, Radiation, Cataracts, business.industry, Health, Toxicology and Mutagenesis, medicine, Radiology, Nuclear Medicine and imaging, medicine.disease, business

Published

1975

28. Observation of radially propagating collisionless-drift-wave instability.

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Author

Nishida, Y., Dodo, T., Kuroda, T., and Horikoshi, G.

Published

1973

29. Anomalous Diffusion of an Afterglow-Plasma

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Author

Dodo, T.

Published

1967

30. Anomalous Diffusion and Oscillations in an Afterglow Plasma

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Author

Dodo, T.

Published

1967

31. Fluctuations and plasma loss in the ℓ = 3 JIPP stellarator

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Author

Dodo, T., primary, Fujiwara, M., additional, Ogata, A., additional, and Miyamoto, K., additional

Published

1975

32. Anomalous diffusion and oscillations in an afterglow plasma

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Author

Dodo, T, primary

Published

1969

33. Note on the Longitudinal and Scalar Photons

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Author

Utiyama, R., primary, Imamura, T., additional, Sunakawa, S., additional, and Dodo, T., additional

Published

1951

34. On The Equivalence Principle*

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Author

Dodo, T., primary and Utiyama, R., additional

Published

1952

35. EXPERIMENTS ON NONADIABATIC TRAPPING OF HIGH-ENERGY HYDROGEN IONS IN A MAGNETIC MIRROR MACHINE.

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Author

Dodo, T

Published

1968

36. QUANTUM THEORY OF THE CERENKOV RADIATION IN PLASMAS

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Author

Dodo, T

Published

1962

37. HEATING OF A PLASMA BY ACOUSTIC WAVES

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Author

Dodo, T

Published

1960

38. FORMATION OF A PLASMA BY LOW ENERGY ION INJECTION AND CYCLOTRON HEATING

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Author

Dodo, T

Published

1960

39. ANOMALOUS DIFFUSION AND OSCILLATIONS IN AN AFTERGLOW PLASMA.

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Author

Dodo, T

Published

1969

40. QUANTUM THEORY OF THE CERENKOV RADIATION IN PLASMAS

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Author

Dodo, T

Published

1961

41. ANOMALOUS DIFFUSION OF AN AFTERGLOW-PLASMA.

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Author

Dodo, T

Published

1967

42. ANOMALOUS DIFFUSION AND OSCILLATIONS IN AN AFTERGLOW PLASMA.

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Author

Dodo, T

Published

1967

43. METHOD FOR CONTAINING HIGH-ENERGY IONS.

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Author

Dodo, T

Published

1969

44. Within-week variability of the home blood pressure in the NOSE study.

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Author

Kubo M, Godai K, Kabayama M, Wada A, Kido M, Hashimoto S, Higashi M, Hatanaka H, Kikuchi T, Dodo T, Tabara Y, Asayama K, Ohkubo T, Rakugi H, and Kamide K

Subjects

Humans, Blood Pressure

Published

2022

45. Second extracellular protease mediating maturation of Vibrio mimicus hemolysin.

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Author

Miyoshi SI, Toko N, Dodo T, Nanko A, and Mizuno T

Subjects

Humans, Peptide Hydrolases genetics, Leupeptins, Ammonium Sulfate, Trypsin, Phenylmethylsulfonyl Fluoride, Metalloproteases, Serine Proteinase Inhibitors, Benzamidines, Hemolysin Proteins genetics, Hemolysin Proteins metabolism, Vibrio metabolism

Abstract

Vibrio mimicus is a bacterium that causes gastroenteritis in humans. This pathogen produces an enterotoxic hemolysin called V. mimicus hemolysin (VMH), which is secreted extracellularly as an inactive 80-kDa protoxin and converted to a 66-kDa mature toxin through cleavage between Arg 151 and Ser 152 . The 56-kDa serine protease termed V. mimicus trypsin-like protease (VmtA) is known to mediate this maturating process. However, some strains including strain ES-20 does not possess the vmtA gene. In the present study, the vmtA-negative strains were found to have a replaced gene that encodes a 43-kDa (403 aa) precursor of a serine protease designated by VmtX (V. mimicus trypsin-like protease X). To examine whether VmtX is also involved in the maturation of VMH, VmtX was isolated from the culture supernatant of V. mimicus strain NRE-20, a metalloprotease-negative mutant constructed from strain ES-20. Concretely, the culture supernatant was fractionated with 70% saturated ammonium sulfate and subjected to affinity column chromatography using a HiTrap Benzamidine FF column. The analysis of the N-terminal amino acid sequences of the proteins in the obtained VmtX preparation indicated that the 39-kDa protein was active VmtX consisting of 371 aa (Ile 33 -Ser 403 ). The VmtX preparation was found to activate pro-VMH through generation of the 66-kDa protein. Additionally, treatment of the VmtX preparation with serine protease inhibitors, such as leupeptin and phenylmethylsulfonyl fluoride, significantly suppressed the activities to hydrolyze the specific peptide substrate and to synthesize the 66-kDa toxin. These findings indicate that VmtX is the second protease that mediats the maturation of VMH., (© 2022. The Author(s), under exclusive licence to Springer Nature B.V.) more...

Published

2022

46. Hochuekkito Combined with Pulmonary Rehabilitation in Apathetic Patients with Chronic Obstructive Pulmonary Disease: A Randomized Controlled Pilot Trial.

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Author

Hamada H, Sekikawa K, Okusaki K, Dodo T, Kagawa K, Sumigawa T, Awaya Y, Sakimoto N, Shioya S, Hakozaki K, Kadowaki T, Kakimoto M, Ito R, Kawamichi K, Kondo K, Namba H, Iwamoto H, and Hattori N

Abstract

The main treatment goals for chronic obstructive pulmonary disease (COPD) are the reduction of its symptoms and future risks. The addition of the traditional herbal medicine Hochuekkito (TJ-41) treatment to pulmonary rehabilitation (PR) has been reported to improve dyspnea and health-related quality of life (HRQOL) in patients with COPD. However, the reason for this improvement is not sufficiently understood. The purpose of the present study was to investigate whether the addition of TJ-41 treatment to PR improves symptoms of apathy, dyspnea, and HRQOL and increases physical activity among apathetic patients with COPD. Apathetic patients with COPD were randomly assigned to receive low-intensity exercise with (TJ-41 group) or without (control group) TJ-41 treatment for 12 weeks. A total of 29.9% of COPD patients had apathetic symptoms without severe depression. After the 12-week treatment, Apathy Scale, Patient Health Questionnaire-9, visual analog scale for dyspnea, and COPD assessment test energy scores decreased significantly in the TJ-41 group (p < 0.05), but not in the control group. Additionally, the total number of steps taken was significantly higher in the TJ-41 group than in the control group. TJ-41 combined with PR may benefit apathetic patients with COPD with respect to apathy, dyspnea, HRQOL, and physical activity, but larger randomized placebo-controlled trials are required to validate the findings because of the small sample size and lack of placebo controls in this study., Competing Interests: The authors declare no conflict of interest. more...

Published

2022

47. Temporal changes in magnetic resonance imaging appearance of adult granulosa cell tumor.

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Author

Ueda M, Sato Y, Iwami S, Dodo T, Shirase T, and Fujita K

Subjects

Adult, Diffusion Magnetic Resonance Imaging, Female, Humans, Magnetic Resonance Imaging, Middle Aged, Granulosa Cell Tumor diagnostic imaging, Granulosa Cell Tumor surgery, Ovarian Neoplasms diagnostic imaging

Abstract

Granulosa cell tumors (GCTs) can have a wide variety of appearances on magnetic resonance imaging (MRI), ranging from entirely solid to multilocular cystic, suggesting that GCTs undergo remarkable morphological changes during growth. These temporal changes in MRI appearance of individual GCTs have not been documented. A 54-year-old asymptomatic postmenopausal woman was referred to our department for a small ovarian mass. This 3-cm solid mass showed high intensity on diffusion-weighted MRI and low intensity on apparent diffusion coefficient mapping. Close clinical follow-up was recommended, but she did not return to our hospital until the age of 63, when she was referred for a large ovarian tumor. MRI showed a 15-cm multilocular cyst containing a solid component with hemorrhaging. Postoperative diagnosis was adult GCT (AGCT). These temporal changes demonstrate a possible reason why GCTs can have such a wide range of MRI appearance. This knowledge might promote accurate preoperative diagnosis of AGCTs., (© 2021 Japan Society of Obstetrics and Gynecology.) more...

Published

2021

48. Inhibition of endothelin A receptor by a novel, selective receptor antagonist enhances morphine-induced analgesia: Possible functional interaction of dimerized endothelin A and μ-opioid receptors.

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Author

Kuroda Y, Nonaka M, Kamikubo Y, Ogawa H, Murayama T, Kurebayashi N, Sakairi H, Miyano K, Komatsu A, Dodo T, Nakano-Ito K, Yamaguchi K, Sakurai T, Iseki M, Hayashida M, and Uezono Y

Subjects

Animals, Dose-Response Relationship, Drug, HEK293 Cells, Humans, Male, Mice, Mice, Inbred C57BL, Pain Measurement drug effects, Pain Measurement methods, Peptides, Cyclic administration & dosage, Protein Multimerization drug effects, Analgesics, Opioid administration & dosage, Endothelin A Receptor Antagonists administration & dosage, Morphine administration & dosage, Protein Multimerization physiology, Receptor, Endothelin A metabolism, Receptors, Opioid, mu metabolism

Abstract

Background: The misuse of opioids has led to an epidemic in recent times. The endothelin A receptor (ETAR) has recently attracted attention as a novel therapeutic target to enhance opioid analgesia. We hypothesized that endothelin A receptors may affect pain mechanisms by heterodimerization with μ opioid receptors. We examined the mechanisms of ETAR-mediated pain and the potential therapeutic effects of an ETAR antagonist, Compound-E, as an agent for analgesia., Methods: Real-time in vitro effect of Compound-E on morphine response was assessed in HEK293 cells expressing both endothelin A and μ opioid receptors through CellKey™ and cADDis cAMP assays. Endothelin A/μ opioid receptor dimerization was assessed by immunoprecipitation and live cell imaging. The in vivo effect of Compound-E was evaluated using a morphine analgesia mouse model that observed escape response behavior, body temperature, and locomotor activity., Results: In CellKey™ and cAMP assays, pretreatment of cells with endothelin-1 attenuated morphine-induced responses. These responses were improved by Compound-E, but not by BQ-123 nor by bosentan, an ETAR and endothelin B receptor antagonist. Dimerization of ETARs and μ opioid receptors was confirmed by Western blot and total internal reflection fluorescence microscopy in live cells. In vivo, Compound-E potentiated and prolonged the analgesic effects of morphine, enhanced hypothermia, and increased locomotor activity compared to morphine alone., Conclusion: The results suggest that attenuation by endothelin-1 of morphine analgesia may be caused by dimerization of Endothelin A/μ opioid receptors. The novel ETAR antagonist Compound-E could be an effective adjunct to reduce opioid use., (Copyright © 2021 The Authors. Published by Elsevier Masson SAS.. All rights reserved.) more...

Published

2021

49. Effects of Hochuekkito combined with pulmonary rehabilitation in patients with chronic obstructive pulmonary disease.

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Author

Hamada H, Sekikawa K, Murakami I, Aimoto K, Kagawa K, Sumigawa T, Okusaki K, Dodo T, Awaya Y, Watanabe M, Kondo K, Ogawa T, Yamamoto H, and Hattori N

Abstract

Chronic obstructive pulmonary disease (COPD) has significant systemic effects, such as weight loss, which affects exercise capacity, health-related quality of life (HRQOL) and survival. The traditional herbal medicine, Hochuekkito (TJ-41), improves the nutritional status and decreases systemic inflammation in patients with COPD. However, to date, the additive effect of TJ-41 on pulmonary rehabilitation (PR) in patients with COPD has not been researched comprehensively. The purpose of the present study was to investigate the efficacy and safety of adding TJ-41 to PR for patients with COPD. Thirty-three malnourished patients with COPD were randomly assigned to receive low-intensity exercise with (TJ-41 group) or without (control group) TJ-41 treatment for 12 weeks. The primary outcome was the change in the 6-min walk distance (6MWD). Secondary outcomes included changes in the body composition, peripheral muscle strength, modified Medical Research Council dyspnea score, visual analog scale (VAS) score for dyspnea, VAS score for fatigue and COPD assessment test (CAT) score. After the 12-week treatment, body weight and percent ideal body weight were significantly increased in the TJ-41 group (P<0.05), but not in the control group. After the 12-week treatment, the modified Medical Research Council dyspnea score, VAS score for dyspnea, VAS score for fatigue and total CAT score decreased significantly in the TJ-41 group (all P<0.05), but not in the control group. There were no significant differences in the 6MWD and peripheral muscle strength between baseline and after 12 weeks of treatment in either group. No adverse effects were noted with the use of TJ-41. It was concluded that the addition of TJ-41 to PR may benefit malnourished patients with COPD with respect to dyspnea and HRQOL. more...

Published

2018

50. Addition of Amide Proton Transfer Imaging to FDG-PET/CT Improves Diagnostic Accuracy in Glioma Grading: A Preliminary Study Using the Continuous Net Reclassification Analysis.

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Author

Sakata A, Okada T, Yamamoto Y, Fushimi Y, Dodo T, Arakawa Y, Mineharu Y, Schmitt B, Miyamoto S, and Togashi K

Subjects

Adult, Aged, Brain Neoplasms pathology, Female, Fluorodeoxyglucose F18, Glioma pathology, Humans, Male, Middle Aged, ROC Curve, Retrospective Studies, Sensitivity and Specificity, Glioma diagnostic imaging, Neoplasm Grading methods, Neuroimaging methods, Positron Emission Tomography Computed Tomography methods

Abstract

Background and Purpose: Amide proton transfer imaging has been successfully applied to brain tumors, however, the relationships between amide proton transfer and other quantitative imaging values have yet to be investigated. The aim was to examine the additive value of amide proton transfer imaging alongside [ 18 F] FDG-PET and DWI for preoperative grading of gliomas., Materials and Methods: Forty-nine patients with newly diagnosed gliomas were included in this retrospective study. All patients had undergone MR imaging, including DWI and amide proton transfer imaging on 3T scanners, and [ 18 F] FDG-PET. Logistic regression analyses were conducted to examine the relationship between each imaging parameter and the presence of high-grade (grade III and/or IV) glioma. These parameters included the tumor-to-normal ratio of FDG uptake, minimum ADC, mean amide proton transfer value, and their combinations. In each model, the overall discriminative power for the detection of high-grade glioma was assessed with receiver operating characteristic curve analysis. Additive information from minimum ADC and mean amide proton transfer was also evaluated by continuous net reclassification improvement. P < .05 was considered significant., Results: Tumor-to-normal ratio, minimum ADC, and mean amide proton transfer demonstrated comparable diagnostic accuracy in differentiating high-grade from low-grade gliomas. When mean amide proton transfer was combined with the tumor-to-normal ratio, the continuous net reclassification improvement was 0.64 (95% CI, 0.036-1.24; P = .04) for diagnosing high-grade glioma and 0.95 (95% CI, 0.39-1.52; P = .001) for diagnosing glioblastoma. When minimum ADC was combined with the tumor-to-normal ratio, the continuous net reclassification improvement was 0.43 (95% CI, -0.17-1.04; P = .16) for diagnosing high-grade glioma, and 1.36 (95% CI, 0.79-1.92; P < .001) for diagnosing glioblastoma., Conclusions: Addition of amide proton transfer imaging to FDG-PET/CT may improve the ability to differentiate high-grade from low-grade gliomas., (© 2018 by American Journal of Neuroradiology.) more...

Published

2018