Your search keyword '"Ozaki, N."' showing total 811 results

1. Shock-Induced Melting and Recrystallization of MoO3 Studied by Dynamic X-Ray Diffraction

Author

Kishimura, H., Kawai, N., Miyanishi, K., Sueda, K., Yabuuchi, T., Nakamura, H., Amouretti, A., Ozaki, N., Aimi, A., and Ichiyanagi, K.

Published

2024

2. Assessing the Real-World, Long-Term Impact of Lemborexant on Sleep Quality in a Home-Based Clinical Study

Author

Miyata S, Iwamoto K, Okada I, Fujimoto A, Kogo Y, Mori D, Amano M, Matsuyama N, Nishida K, Ando M, Taoka T, Naganawa S, and Ozaki N

Subjects

insomnia, lemborexant, objective sleep evaluation, portable sleep eeg monitoring, subjective sleep evaluation, Psychiatry, RC435-571, Neurophysiology and neuropsychology, QP351-495

Abstract

Seiko Miyata,1,* Kunihiro Iwamoto,1,* Ippei Okada,1,* Akihiro Fujimoto,2 Yuki Kogo,2 Daisuke Mori,1,3,4 Manabu Amano,5 Nao Matsuyama,5 Kazuki Nishida,5 Masahiko Ando,5 Toshiaki Taoka,6 Shinji Naganawa,7 Norio Ozaki1,4 1Department of Psychiatry, Nagoya University, Graduate School of Medicine, Nagoya, Japan; 2Medical Headquarters, Eisai Co., Ltd., Tokyo, Japan; 3Brain and Mind Research Center, Nagoya University, Nagoya, Japan; 4Pathophysiology of Mental Disorders, Nagoya University, Graduate School of Medicine, Nagoya, Japan; 5Department of Advanced Medicine, Nagoya University Hospital, Nagoya, Japan; 6Department of Innovative Biomedical Visualization (Ibmv), Nagoya University, Graduate School of Medicine, Nagoya, Japan; 7Department of Radiology, Nagoya University, Graduate School of Medicine, Nagoya, Japan*These authors contributed equally to this workCorrespondence: Seiko Miyata, Department of Psychiatry, Nagoya University, Graduate School of Medicine, 65 Tsurumai, Showa, Nagoya, Aichi, 466-8550, Japan, Tel +81 52 744 2282, Fax +81 52 744 2293, Email miyata.seiko.v4@f.mail.nagoya-u.ac.jpPurpose: Both subjective and objective evaluations are essential for the treatment of insomnia. Lemborexant has been shown to be effective in the long-term based solely on a subjective basis, and no long-term objective measures have been evaluated under natural sleep conditions. Small, lightweight sleep electroencephalogram (EEG) monitor was used, instead of polysomnography, to objectively evaluate sleep at home 4 and 12 weeks after lemborexant treatment.Patients and Methods: Adults and elderly subjects with insomnia disorder, per the Diagnostic and Statistical Manual of Mental Disorders, Fifth Edition, were enrolled in this open-label, single-arm, single-center trial. Objective and subjective measures of sleep were prospectively assessed. Sleep disturbance, excessive sleepiness, and depressive symptoms were assessed using questionnaires.Results: A total of 45 subjects were screened, of which 33 were enrolled. Paired t-tests were conducted to evaluate changes in sleep variables and compared with the baseline; subjects showed significant improvements in objective sleep efficiency (SE) and subjective sleep parameters at weeks 4 and 12 following treatment with lemborexant. When baseline values were taken into account, a repeated-multivariate analysis of variance (MANOVA) revealed statistically significant changes in the objective measures. Sleep disturbance, excessive sleepiness, and depressive symptoms improved after three months of lemborexant treatment.Conclusion: Furthermore, lemborexant therapy improved nocturnal sleep, when measured objectively using sleep EEG monitoring at home, and improved daytime sleepiness and depressive symptoms in older adults with insomnia disorder.Keywords: insomnia, lemborexant, objective sleep evaluation, portable sleep EEG monitoring, subjective sleep evaluation

Published

2024

3. Strength of diamond beyond the elastic limit under dynamic compression

Author

Katagiri, K., Ozaki, N., Dresselhaus-Marais, L. E., Eggert, J. H., Inubushi, Y., Irifune, T., Koenig, M., Matsuoka, T., Miyanishi, K., Nakamura, H., Nishiyama, N., Okuchi, T., Sekine, T., Seto, Y., Sueda, K., Tange, Y., Togashi, T., Umeda, Y., Yabashi, M., Yabuuchi, T., and Kodama, R.

Subjects

Condensed Matter - Materials Science

Abstract

Extremely high pressures over a million of atmospheres are required to deform diamonds permanently. Under dynamic high-pressure conditions, even such strong materials lose their strengths so rapidly that the initially pristine lattice transforms into complex dynamics. Here, we report femtosecond x-ray diffraction observations that directly resolve how shock waves deform the crystal lattice in the isotropic nano-polycrystalline form of diamond. The results show that the nano-grain reinforced diamond retains its strength at shock pressures far beyond its elastic limit until it finally approaches zero at 707 GPa, indicating the existence of brittle-ductile transition of nano-polycrystalline diamond under high-strain rate shock compression. The atomic-level deformation process of the diamond observed in this study is a key benchmark for designing high strength materials and simulating their behavior under extreme conditions.

Published

2022

4. High-power laser experiment on developing supercritical shock propagating in homogeneously magnetized plasma of ambient gas origin

Author

Matsukiyo, S., Yamazaki, R., Morita, T., Tomita, K., Kuramitsu, Y., Tanaka, S. J., Takezaki, T., Isayama, S., Higuchi, T., Murakami, H., Horie, Y., Katsuki, N., Hatsuyama, R., Edamoto, M., Nishioka, H., Takagi, M., Kojima, T., Tomita, S., Ishizaka, N., Kakuchi, S., Sei, S., Sugiyama, K., Aihara, K., Kambayashi, S., Ota, M., Egashira, S., Izumi, T., Minami, T., Nakagawa, Y., Sakai, K., Iwamoto, M., Ozaki, N., and Sakawa, Y.

Subjects

Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena, High Energy Physics - Experiment

Abstract

A developing supercritical collisionless shock propagating in a homogeneously magnetized plasma of ambient gas origin having higher uniformity than the previous experiments is formed by using high-power laser experiment. The ambient plasma is not contaminated by the plasma produced in the early time after the laser shot. While the observed developing shock does not have stationary downstream structure, it possesses some characteristics of a magnetized supercritical shock, which are supported by a one-dimensional full particle-in-cell simulation taking the effect of finite time of laser-target interaction into account., Comment: 7 pages, 6 fitures

Published

2022

5. Direct imaging of shock wave splitting in diamond at Mbar pressures

Author

Makarov, S. S., Dyachkov, S. A., Pikuz, T. A., Katagiri, K., Zhakhovsky, V. V., Inogamov, N. A., Khokhlov, V. A., Martynenko, A. S., Albertazzi, B., Rigon, G., Mabey, P., Hartley, N., Inubushi, Y., Miyanishi, K., Sueda, K., Togashi, T., Yabashi, M., Yabuuchi, T., Kodama, R., Pikuz, S. A., Koenig, M., and Ozaki, N.

Subjects

Physics - Plasma Physics, Condensed Matter - Materials Science

Abstract

The propagation of a shock wave in solids can stress them to ultra-high pressures of millions of atmospheres. Understanding the behavior of matter at these extreme pressures is essential to describe a wide range of physical phenomena, including the formation of planets, young stars and cores of super-Earths, as well as the behavior of advanced ceramic materials subjected to such stresses. Under megabar (Mbar) pressure, even a solid with high strength exhibits plastic properties, causing the shock wave to split in two. This phenomenon is described by theoretical models, but without direct experimental measurements to confirm them, their validity is still in doubt. Here, we present the results of an experiment in which the evolution of the coupled elastic-plastic wave structure in diamond was directly observed and studied with submicron spatial resolution, using the unique capabilities of the X-ray free-electron laser. The direct measurements allowed, for the first time, the fitting and validation of a strength model for diamond in the range of several Mbar by performing continuum mechanics simulations in 2D geometry. The presented experimental approach to the study of shock waves in solids opens up new possibilities for the direct verification and construction of the equations of state of matter in the ultra-high pressure range, which are relevant for the solution of a variety of problems in high energy density physics., Comment: 14 pages, 15 figures, submitted to Nature

Published

2022

6. High-power laser experiment forming a supercritical collisionless shock in a magnetized uniform plasma at rest

Author

Yamazaki, Ryo, Matsukiyo, S., Morita, T., Tanaka, S. J., Umeda, T., Aihara, K., Edamoto, M., Egashira, S., Hatsuyama, R., Higuchi, T., Hihara, T., Horie, Y., Hoshino, M., Ishii, A., Ishizaka, N., Itadani, Y., Izumi, T., Kambayashi, S., Kakuchi, S., Katsuki, N., Kawamura, R., Kawamura, Y., Kisaka, S., Kojima, T., Konuma, A., Kumar, R., Minami, T., Miyata, I., Moritaka, T., Murakami, Y., Nagashima, K., Nakagawa, Y., Nishimoto, T., Nishioka, Y., Ohira, Y., Ohnishi, N., Ota, M., Ozaki, N., Sano, T., Sakai, K., Sei, S., Shiota, J., Shoji, Y., Sugiyama, K., Suzuki, D., Takagi, M., Toda, H., Tomita, S., Tomiya, S., Yoneda, H., Takezaki, T., Tomita, K., Kuramitsu, Y., and Sakawa, Y.

Subjects

Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

We present a new experimental method to generate quasi-perpendicular supercritical magnetized collisionless shocks. In our experiment, ambient nitrogen (N) plasma is at rest and well-magnetized, and it has uniform mass density. The plasma is pushed by laser-driven ablation aluminum (Al) plasma. Streaked optical pyrometry and spatially resolved laser collective Thomson scattering clarify structures of plasma density and temperatures, which are compared with one-dimensional particle-in-cell simulations. It is indicated that just after the laser irradiation, the Al plasma is magnetized by a self-generated Biermann battery field, and the plasma slaps the incident N plasma. The compressed external field in the N plasma reflects N ions, leading to counter-streaming magnetized N flows. Namely we identify the edge of the reflected N ions. Such interacting plasmas form a magnetized collisionless shock., Comment: 17 pages, 12 figures, 1 table. Physical Review E, in press

Published

2022

7. Using Diffuse Scattering to Observe X-Ray-Driven Nonthermal Melting

Author

Hartley, N. J., Grenzer, J., Huang, L., Inubushi, Y., Kamimura, N., Katagiri, K., Kodama, R., Kon, A., Lu, W., Makita, M., Matsuoka, T., Nakajima, S., Ozaki, N., Pikuz, T., Rode, A., Sagae, D., Schuster, A. K., Tono, K., Voigt, K., Vorberger, J., Yabuuchi, T., McBride, E. E., and Kraus, D.

Subjects

Physics - Plasma Physics

Abstract

We present results from the SPring-8 Angstrom Compact free electron LAser (SACLA) XFEL facility, using a high intensity ($\sim\!10^{20}\,$W/cm$^2$) X-ray pump X-ray probe scheme to observe changes in the ionic structure of silicon induced by X-ray heating of the electrons. By avoiding Laue spots in the scattering signal from a single crystalline sample, we observe a rapid rise in diffuse scattering, which we attribute to a loss of lattice order and a transition to a liquid state within 100 fs of irradiation, a timescale which agrees well with first principles simulations, but is faster than that predicted by purely inertial behavior. This method is capable of observing liquid scattering without masking or filtering of signal from the ambient solid, allowing the liquid structure to be measured throughout and beyond the phase change., Comment: 6 pages, 5 figures. Updated title and abstract

Published

2020

8. All femtosecond optical pump and X-ray probe: holey-axicon for free electron laser

Author

Anand, V., Maksimovic, J., Katkus, T., Ng, S. H., Ulcinas, O., Mikutis, M., Baltrukonis, J., Urbas, A., Slekys, G., Ogura, H., Sagae, D., Pikuz, T., Somekawa, T., Ozaki, N., Vailionis, A., Seniutinas, G., Mizeikis, V., Glazebrook, K., Brodie, J. P., Stoddart, P. R., Rapp, L., Rode, A. V., Gamaly, E. G., and Juodkazis, S.

Subjects

Physics - Optics, High Energy Physics - Experiment

Abstract

We put forward a co-axial pump(optical)-probe(X-rays) experimental concept and show performance of the optical component. A Bessel beam generator with a central 100 micrometers-diameter hole (on the optical axis) was fabricated using femtosecond (fs) laser structuring inside a silica plate. This flat-axicon optical element produces a needle-like axial intensity distribution which can be used for the optical pump pulse. The fs-X-ray free electron laser (X-FEL) beam of sub-1 micrometer diameter can be introduced through the central hole along the optical axis onto a target as a probe. Different realisations of optical pump are discussed. Such optical elements facilitate alignment of ultra-short fs-pulses in space and time and can be used in light-matter interaction experiments at extreme energy densities on the surface and in the volume of targets. Full advantage of ultra-short 10 fs X-FEL probe pulses with fs-pump(optical) opens an unexplored temporal dimension of phase transitions and the fastest laser-induced rates of material heating and quenching. A wider field of applications of fs-laser-enabled structuring of materials and design of specific optical elements for astrophotonics is presented.

Published

2020

9. Exploratory Validation of Sleep-Tracking Devices in Patients with Psychiatric Disorders

Author

Ogasawara M, Takeshima M, Kosaka S, Imanishi A, Itoh Y, Fujiwara D, Yoshizawa K, Ozaki N, Nakagome K, and Mishima K

Subjects

polysomnography, actigraphy, portable eeg, consumer sleep technologies, psychiatric patients, Psychiatry, RC435-571, Neurophysiology and neuropsychology, QP351-495

Abstract

Masaya Ogasawara,1 Masahiro Takeshima,1 Shumpei Kosaka,2 Aya Imanishi,1 Yu Itoh,1 Dai Fujiwara,1 Kazuhisa Yoshizawa,1 Norio Ozaki,3 Kazuyuki Nakagome,4 Kazuo Mishima1 1Department of Neuropsychiatry, Akita University Graduate School of Medicine, Akita, Japan; 2Department of Psychiatry, Akita Prefectural Center for Rehabilitation and Psychiatric Medicine, Daisen, Japan; 3Department of Pathophysiology of Mental Disorders, Nagoya University Graduate School of Medicine, Nagoya, Japan; 4Department of Psychiatry, National Center of Neurology and Psychiatry, Tokyo, JapanCorrespondence: Kazuo Mishima, Department of Neuropsychiatry, Akita University Graduate School of Medicine, 1-1-1 Hondo, Akita, 010-8543, Japan, Tel +81-18-884-6122, Fax +81-18-884-6445, Email clocksclub@gmail.comPurpose: Sleep-tracking devices have performed well in recent studies that evaluated their use in healthy adults by comparing them with the gold standard sleep assessment technique, polysomnography (PSG). These devices have not been validated for use in patients with psychiatric disorders. Therefore, we tested the performance of three sleep-tracking devices against PSG in patients with psychiatric disorders.Patients and methods: In total, 52 patients (32 women; 48.1 ± 17.2 years, mean ± SD; 18 patients diagnosed with schizophrenia, 19 with depressive disorder, 3 with bipolar disorder, and 12 with sleep disorder cases) were tested in a sleep laboratory with PSG, along with portable electroencephalography (EEG) device (Sleepgraph), actigraphy (MTN-220/221) and consumer sleep-tracking device (Fitbit Sense).Results: Epoch-by-epoch sensitivity (for sleep) and specificity (for wake), respectively, were as follows: Sleepgraph (0.95, 0.76), Fitbit Sense (0.95, 0.45) and MTN-220/221 (0.93, 0.40). Portable EEG (Sleepgraph) had the best sleep stage-tracking performance. Sleep-wake summary metrics demonstrated lower performance on poor sleep (ice, shorter total sleep time, lower sleep efficiency, longer sleep latency, longer wake after sleep onset).Conclusion: Devices demonstrated similar sleep-wake detecting performance as compared with previous studies that evaluated sleep in healthy adults. Consumer sleep device may exhibit poor sleep stage-tracking performance in patients with psychiatric disorders due to factors that affect the sleep determination algorithm, such as changes in autonomic nervous system activity. However, Sleepgraph, a portable EEG device, demonstrated higher performance in mental disorders than the Fitbit Sense and actigraphy.Keywords: polysomnography, actigraphy, portable EEG, consumer sleep technologies, psychiatric patients

Published

2023

10. Shock compression experiments using the DiPOLE 100-X laser on the high energy density instrument at the European x-ray free electron laser: Quantitative structural analysis of liquid Sn

Author

Gorman, M, Mcgonegle, D, Smith, R, Singh, S, Jenkins, T, Mcwilliams, R, Albertazzi, B, Ali, S, Antonelli, L, Armstrong, M, Baehtz, C, Ball, O, Banerjee, S, Belonoshko, A, Benuzzi-Mounaix, A, Bolme, C, Bouffetier, V, Briggs, R, Buakor, K, Butcher, T, Di Dio Cafiso, S, Cerantola, V, Chantel, J, Di Cicco, A, Clarke, S, Coleman, A, Collier, J, Collins, G, Comley, A, Coppari, F, Cowan, T, Cristoforetti, G, Cynn, H, Descamps, A, Dorchies, F, Duff, M, Dwivedi, A, Edwards, C, Eggert, J, Errandonea, D, Fiquet, G, Galtier, E, Laso Garcia, A, Ginestet, H, Gizzi, L, Gleason, A, Goede, S, Gonzalez, J, Harmand, M, Hartley, N, Heighway, P, Hernandez-Gomez, C, Higginbotham, A, Höppner, H, Husband, R, Hutchinson, T, Hwang, H, Lazicki, A, Keen, D, Kim, J, Koester, P, Konopkova, Z, Kraus, D, Krygier, A, Labate, L, Lee, Y, Liermann, H, Mason, P, Masruri, M, Massani, B, Mcbride, E, Mcguire, C, Mchardy, J, Merkel, S, Morard, G, Nagler, B, Nakatsutsumi, M, Nguyen-Cong, K, Norton, A, Oleynik, I, Otzen, C, Ozaki, N, Pandolfi, S, Peake, D, Pelka, A, Pereira, K, Phillips, J, Prescher, C, Preston, T, Randolph, L, Ranjan, D, Ravasio, A, Redmer, R, Rips, J, Santamaria-Perez, D, Savage, D, Schoelmerich, M, Schwinkendorf, J, Smith, J, Sollier, A, Spear, J, Spindloe, C, Stevenson, M, Strohm, C, Suer, T, Tang, M, Toncian, M, Toncian, T, Tracy, S, Trapananti, A, Tschentscher, T, Tyldesley, M, Vennari, C, Vinci, T, Vogel, S, Volz, T, Vorberger, J, Walsh, J, Wark, J, Willman, J, Wollenweber, L, Zastrau, U, Brambrink, E, Appel, K, Mcmahon, M, Gorman, M. G., McGonegle, D., Smith, R. F., Singh, S., Jenkins, T., McWilliams, R. S., Albertazzi, B., Ali, S. J., Antonelli, L., Armstrong, M. R., Baehtz, C., Ball, O. B., Banerjee, S., Belonoshko, A. B., Benuzzi-Mounaix, A., Bolme, C. A., Bouffetier, V., Briggs, R., Buakor, K., Butcher, T., Di Dio Cafiso, S., Cerantola, V., Chantel, J., Di Cicco, A., Clarke, S., Coleman, A. L., Collier, J., Collins, G. W., Comley, A. J., Coppari, F., Cowan, T. E., Cristoforetti, G., Cynn, H., Descamps, A., Dorchies, F., Duff, M. J., Dwivedi, A., Edwards, C., Eggert, J. H., Errandonea, D., Fiquet, G., Galtier, E., Laso Garcia, A., Ginestet, H., Gizzi, L., Gleason, A., Goede, S., Gonzalez, J. M., Harmand, M., Hartley, N. J., Heighway, P. G., Hernandez-Gomez, C., Higginbotham, A., Höppner, H., Husband, R. J., Hutchinson, T. M., Hwang, H., Lazicki, A. E., Keen, D. A., Kim, J., Koester, P., Konopkova, Z., Kraus, D., Krygier, A., Labate, L., Lee, Y., Liermann, H. -P., Mason, P., Masruri, M., Massani, B., McBride, E. E., McGuire, C., McHardy, J. D., Merkel, S., Morard, G., Nagler, B., Nakatsutsumi, M., Nguyen-Cong, K., Norton, A. -M., Oleynik, I. I., Otzen, C., Ozaki, N., Pandolfi, S., Peake, D. J., Pelka, A., Pereira, K. A., Phillips, J. P., Prescher, C., Preston, T. R., Randolph, L., Ranjan, D., Ravasio, A., Redmer, R., Rips, J., Santamaria-Perez, D., Savage, D. J., Schoelmerich, M., Schwinkendorf, J. -P., Smith, J., Sollier, A., Spear, J., Spindloe, C., Stevenson, M., Strohm, C., Suer, T. -A., Tang, M., Toncian, M., Toncian, T., Tracy, S. J., Trapananti, A., Tschentscher, T., Tyldesley, M., Vennari, C. E., Vinci, T., Vogel, S. C., Volz, T. J., Vorberger, J., Walsh, J. P. S., Wark, J. S., Willman, J. T., Wollenweber, L., Zastrau, U., Brambrink, E., Appel, K., McMahon, M. I., Gorman, M, Mcgonegle, D, Smith, R, Singh, S, Jenkins, T, Mcwilliams, R, Albertazzi, B, Ali, S, Antonelli, L, Armstrong, M, Baehtz, C, Ball, O, Banerjee, S, Belonoshko, A, Benuzzi-Mounaix, A, Bolme, C, Bouffetier, V, Briggs, R, Buakor, K, Butcher, T, Di Dio Cafiso, S, Cerantola, V, Chantel, J, Di Cicco, A, Clarke, S, Coleman, A, Collier, J, Collins, G, Comley, A, Coppari, F, Cowan, T, Cristoforetti, G, Cynn, H, Descamps, A, Dorchies, F, Duff, M, Dwivedi, A, Edwards, C, Eggert, J, Errandonea, D, Fiquet, G, Galtier, E, Laso Garcia, A, Ginestet, H, Gizzi, L, Gleason, A, Goede, S, Gonzalez, J, Harmand, M, Hartley, N, Heighway, P, Hernandez-Gomez, C, Higginbotham, A, Höppner, H, Husband, R, Hutchinson, T, Hwang, H, Lazicki, A, Keen, D, Kim, J, Koester, P, Konopkova, Z, Kraus, D, Krygier, A, Labate, L, Lee, Y, Liermann, H, Mason, P, Masruri, M, Massani, B, Mcbride, E, Mcguire, C, Mchardy, J, Merkel, S, Morard, G, Nagler, B, Nakatsutsumi, M, Nguyen-Cong, K, Norton, A, Oleynik, I, Otzen, C, Ozaki, N, Pandolfi, S, Peake, D, Pelka, A, Pereira, K, Phillips, J, Prescher, C, Preston, T, Randolph, L, Ranjan, D, Ravasio, A, Redmer, R, Rips, J, Santamaria-Perez, D, Savage, D, Schoelmerich, M, Schwinkendorf, J, Smith, J, Sollier, A, Spear, J, Spindloe, C, Stevenson, M, Strohm, C, Suer, T, Tang, M, Toncian, M, Toncian, T, Tracy, S, Trapananti, A, Tschentscher, T, Tyldesley, M, Vennari, C, Vinci, T, Vogel, S, Volz, T, Vorberger, J, Walsh, J, Wark, J, Willman, J, Wollenweber, L, Zastrau, U, Brambrink, E, Appel, K, Mcmahon, M, Gorman, M. G., McGonegle, D., Smith, R. F., Singh, S., Jenkins, T., McWilliams, R. S., Albertazzi, B., Ali, S. J., Antonelli, L., Armstrong, M. R., Baehtz, C., Ball, O. B., Banerjee, S., Belonoshko, A. B., Benuzzi-Mounaix, A., Bolme, C. A., Bouffetier, V., Briggs, R., Buakor, K., Butcher, T., Di Dio Cafiso, S., Cerantola, V., Chantel, J., Di Cicco, A., Clarke, S., Coleman, A. L., Collier, J., Collins, G. W., Comley, A. J., Coppari, F., Cowan, T. E., Cristoforetti, G., Cynn, H., Descamps, A., Dorchies, F., Duff, M. J., Dwivedi, A., Edwards, C., Eggert, J. H., Errandonea, D., Fiquet, G., Galtier, E., Laso Garcia, A., Ginestet, H., Gizzi, L., Gleason, A., Goede, S., Gonzalez, J. M., Harmand, M., Hartley, N. J., Heighway, P. G., Hernandez-Gomez, C., Higginbotham, A., Höppner, H., Husband, R. J., Hutchinson, T. M., Hwang, H., Lazicki, A. E., Keen, D. A., Kim, J., Koester, P., Konopkova, Z., Kraus, D., Krygier, A., Labate, L., Lee, Y., Liermann, H. -P., Mason, P., Masruri, M., Massani, B., McBride, E. E., McGuire, C., McHardy, J. D., Merkel, S., Morard, G., Nagler, B., Nakatsutsumi, M., Nguyen-Cong, K., Norton, A. -M., Oleynik, I. I., Otzen, C., Ozaki, N., Pandolfi, S., Peake, D. J., Pelka, A., Pereira, K. A., Phillips, J. P., Prescher, C., Preston, T. R., Randolph, L., Ranjan, D., Ravasio, A., Redmer, R., Rips, J., Santamaria-Perez, D., Savage, D. J., Schoelmerich, M., Schwinkendorf, J. -P., Smith, J., Sollier, A., Spear, J., Spindloe, C., Stevenson, M., Strohm, C., Suer, T. -A., Tang, M., Toncian, M., Toncian, T., Tracy, S. J., Trapananti, A., Tschentscher, T., Tyldesley, M., Vennari, C. E., Vinci, T., Vogel, S. C., Volz, T. J., Vorberger, J., Walsh, J. P. S., Wark, J. S., Willman, J. T., Wollenweber, L., Zastrau, U., Brambrink, E., Appel, K., and McMahon, M. I.

Abstract

X-ray free electron laser (XFEL) sources coupled to high-power laser systems offer an avenue to study the structural dynamics of materials at extreme pressures and temperatures. The recent commissioning of the DiPOLE 100-X laser on the high energy density (HED) instrument at the European XFEL represents the state-of-the-art in combining x-ray diffraction with laser compression, allowing for compressed materials to be probed in unprecedented detail. Here, we report quantitative structural measurements of molten Sn compressed to 85(5) GPa and ∼ 3500 K. The capabilities of the HED instrument enable liquid density measurements with an uncertainty of ∼ 1 % at conditions which are extremely challenging to reach via static compression methods. We discuss best practices for conducting liquid diffraction dynamic compression experiments and the necessary intensity corrections which allow for accurate quantitative analysis. We also provide a polyimide ablation pressure vs input laser energy for the DiPOLE 100-X drive laser which will serve future users of the HED instrument.

Published

2024

11. Equation of state and optical properties of shock-compressed C:H:N:O molecular mixtures

Author

Guarguaglini, M., Hernandez, J. -A., Okuchi, T., Barroso, P., Benuzzi-Mounaix, A., Bolis, R., Brambrink, E., Fujimoto, Y., Kodama, R., Koenig, M., Lefevre, F., Miyanishi, K., Ozaki, N., Sano, T., Umeda, Y., Vinci, T., and Ravasio, A.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Water, ethanol, and ammonia are the key components of the mantles of Uranus and Neptune. To improve structure and evolution models and give an explanation of the magnetic fields and luminosities of the icy giants, those components need to be characterised at planetary conditions (some Mbar and a few $10^3$ K). Those conditions are typical of the Warm Dense Matter regime, which exhibits a rich phase diagram, with the coexistence of many states of matter and a large variety of chemical processes. H$_2$O, C:H:O, and C:H:N:O mixtures have been compressed up to 2.8 Mbar along the principal Hugoniot using laser-driven decaying shocks. The experiments were performed at the GEKKO XII and LULI 2000 laser facilities using standard optical diagnostics (Doppler velocimetry and pyrometry) to characterise equation of state and optical reflectivity of the shocked states. The results show that H$_2$O and the C:H:N:O mixture share the same equation of state with a density scaling, while the reflectivity behaves differently by what concerns both the onset pressures and the saturation values. The reflectivity measurement at two frequencies allows to estimate the conductivity and the complex refractive index using a Drude model.

Published

2018

12. A Study of Factors Causing Sleep State Misperception in Patients with Depression

Author

Kawai K, Iwamoto K, Miyata S, Okada I, Ando M, Fujishiro H, Noda A, and Ozaki N

Subjects

insomnia, personality, sleep architectures, discrepancy, sleep disorders, Psychiatry, RC435-571, Neurophysiology and neuropsychology, QP351-495

Abstract

Keita Kawai,1 Kunihiro Iwamoto,1 Seiko Miyata,1 Ippei Okada,1 Motoo Ando,1 Hiroshige Fujishiro,1 Akiko Noda,2 Norio Ozaki1 1Department of Psychiatry, Nagoya University Graduate School of Medicine, Nagoya, Japan; 2Department of Biomedical Sciences, Chubu University Graduate School of Life and Health Sciences, Kasugai, JapanCorrespondence: Kunihiro Iwamoto, Department of Psychiatry, Nagoya University Graduate School of Medicine, 65 Tsurumai, Showa, Nagoya, Aichi, 466-8550, Japan, Tel +81-52-744-2282, Fax +81-52-744-2293, Email iwamoto@med.nagoya-u.ac.jpPurpose: Sleep state misperception, which is the discrepancy between subjective and objective sleep, is often observed in patients with depression. This phenomenon may delay the remission of depression. Previous studies have focused on the total sleep time (TST) misperception, with many of these studies using actigraphy. Thus, our study investigated depressed patients with the exploratory aim of clarifying factors associated with the sleep state misperception including the wake after sleep onset (WASO) misperception, with their objective sleep additionally evaluated by polysomnography (PSG).Patients and Methods: We conducted a cross-sectional study. Before undergoing overnight PSG monitoring, 40 patients with depression completed questionnaires that included the Beck Depression Inventory (BDI), Epworth sleepiness scale, Temperament and Character Inventory, and the Pittsburgh sleep quality index. Patients were also asked to estimate their subjective sleep duration after they woke up in the morning. Based on this data, we calculated the misperception using the following formula: subjective sleep duration minus objective sleep duration. We compared each factor between negative and positive misperception groups and the multiple regression analysis was performed for TST and WASO misperception, respectively.Results: Although sleep architectures, age, severity of depression and obstructive sleep apnea (OSA) exhibited differences in underestimating or overestimating the WASO, only sex differences were associated with underestimating or overestimating their total sleep time (TST). Moreover, BDI, the severity of OSA, sleep architectures (N1% and N2%), and benzodiazepine (BZD) use were significantly correlated with WASO misperception, whereas only OSA severity was significantly correlated with TST misperception. A subsequent multiple regression analysis demonstrated the BDI was independently correlated with the WASO misperception (β=0.341, p=0.049).Conclusion: In clinical practice, interventions especially for OSA, and the reduction of depressive symptoms are an important method for improving patient sleep perception. Moreover, current results suggest that BZD prescriptions should be avoided as well.Keywords: insomnia, personality, sleep architectures, discrepancy, sleep disorders

Published

2022

13. Dust impact and attitude analysis for JAXA’s probe on the Comet Interceptor mission

Author

Machuca, P., Ozaki, N., Sánchez, J.P., and Felicetti, L.

Published

2022

14. Chemical bonding properties of liquid methane under high-density conditions.

Author

Murayama, D., Ohmura, S., Kodama, R., and Ozaki, N.

Subjects

CHEMICAL bonds, CHEMICAL properties, ELECTRONIC density of states, ELECTRON distribution, TRANSITION metals, ELECTRON density, OXYGEN carriers

Abstract

We present the chemical bonding and electronic properties of liquid methane at temperatures from 2000 to 4000 K and high densities of up to 3.0 g/cm3, calculated using ab initio molecular dynamics simulations in combination with the Mulliken population analysis. Bond-overlap populations and pair distribution functions are studied to investigate the evolution of electron delocalization accompanying atomic structure change as the density is increased. In addition, we also investigated the bandgap energy, electronic density of states, and spatial distribution of electron density. We observed that molecular hydrogen and C‒C bonds are formed after methane dissociates, and then the system undergoes a nonmetal–metal transition coinciding with hydrogen being transformed from the molecular to the atomic state. The C‒C bonds in the system retain covalent character, even at the highest density of 3.0 g/cm3. [ABSTRACT FROM AUTHOR]

Published

2023

15. Author Correction: Direct observations of pure electron outflow in magnetic reconnection

Author

Sakai, K., Moritaka, T., Morita, T., Tomita, K., Minami, T., Nishimoto, T., Egashira, S., Ota, M., Sakawa, Y., Ozaki, N., Kodama, R., Kojima, T., Takezaki, T., Yamazaki, R., Tanaka, S. J., Aihara, K., Koenig, M., Albertazzi, B., Mabey, P., Woolsey, N., Matsukiyo, S., Takabe, H., Hoshino, M., and Kuramitsu, Y.

Published

2022

16. Direct observations of pure electron outflow in magnetic reconnection

Author

Sakai, K., Moritaka, T., Morita, T., Tomita, K., Minami, T., Nishimoto, T., Egashira, S., Ota, M., Sakawa, Y., Ozaki, N., Kodama, R., Kojima, T., Takezaki, T., Yamazaki, R., Tanaka, S. J., Aihara, K., Koenig, M., Albertazzi, B., Mabey, P., Woolsey, N., Matsukiyo, S., Takabe, H., Hoshino, M., and Kuramitsu, Y.

Published

2022

17. Shock compression experiments using the DiPOLE 100-X laser on the high energy density instrument at the European x-ray free electron laser: Quantitative structural analysis of liquid Sn

Author

Gorman, M. G., primary, McGonegle, D., additional, Smith, R. F., additional, Singh, S., additional, Jenkins, T., additional, McWilliams, R. S., additional, Albertazzi, B., additional, Ali, S. J., additional, Antonelli, L., additional, Armstrong, M. R., additional, Baehtz, C., additional, Ball, O. B., additional, Banerjee, S., additional, Belonoshko, A. B., additional, Benuzzi-Mounaix, A., additional, Bolme, C. A., additional, Bouffetier, V., additional, Briggs, R., additional, Buakor, K., additional, Butcher, T., additional, Di Dio Cafiso, S., additional, Cerantola, V., additional, Chantel, J., additional, Di Cicco, A., additional, Clarke, S., additional, Coleman, A. L., additional, Collier, J., additional, Collins, G. W., additional, Comley, A. J., additional, Coppari, F., additional, Cowan, T. E., additional, Cristoforetti, G., additional, Cynn, H., additional, Descamps, A., additional, Dorchies, F., additional, Duff, M. J., additional, Dwivedi, A., additional, Edwards, C., additional, Eggert, J. H., additional, Errandonea, D., additional, Fiquet, G., additional, Galtier, E., additional, Laso Garcia, A., additional, Ginestet, H., additional, Gizzi, L., additional, Gleason, A., additional, Goede, S., additional, Gonzalez, J. M., additional, Harmand, M., additional, Hartley, N. J., additional, Heighway, P. G., additional, Hernandez-Gomez, C., additional, Higginbotham, A., additional, Höppner, H., additional, Husband, R. J., additional, Hutchinson, T. M., additional, Hwang, H., additional, Lazicki, A. E., additional, Keen, D. A., additional, Kim, J., additional, Koester, P., additional, Konopkova, Z., additional, Kraus, D., additional, Krygier, A., additional, Labate, L., additional, Lee, Y., additional, Liermann, H.-P., additional, Mason, P., additional, Masruri, M., additional, Massani, B., additional, McBride, E. E., additional, McGuire, C., additional, McHardy, J. D., additional, Merkel, S., additional, Morard, G., additional, Nagler, B., additional, Nakatsutsumi, M., additional, Nguyen-Cong, K., additional, Norton, A.-M., additional, Oleynik, I. I., additional, Otzen, C., additional, Ozaki, N., additional, Pandolfi, S., additional, Peake, D. J., additional, Pelka, A., additional, Pereira, K. A., additional, Phillips, J. P., additional, Prescher, C., additional, Preston, T. R., additional, Randolph, L., additional, Ranjan, D., additional, Ravasio, A., additional, Redmer, R., additional, Rips, J., additional, Santamaria-Perez, D., additional, Savage, D. J., additional, Schoelmerich, M., additional, Schwinkendorf, J.-P., additional, Smith, J., additional, Sollier, A., additional, Spear, J., additional, Spindloe, C., additional, Stevenson, M., additional, Strohm, C., additional, Suer, T.-A., additional, Tang, M., additional, Toncian, M., additional, Toncian, T., additional, Tracy, S. J., additional, Trapananti, A., additional, Tschentscher, T., additional, Tyldesley, M., additional, Vennari, C. E., additional, Vinci, T., additional, Vogel, S. C., additional, Volz, T. J., additional, Vorberger, J., additional, Walsh, J. P. S., additional, Wark, J. S., additional, Willman, J. T., additional, Wollenweber, L., additional, Zastrau, U., additional, Brambrink, E., additional, Appel, K., additional, and McMahon, M. I., additional

Published

2024

18. Decaying shock studies of phase transitions in MgOSiO2 systems: implications for the Super-Earths interiors

Author

Bolis, R. M., Morard, G., Vinci, T., Ravasio, A., Bambrink, E., Guarguaglini, M., Koenig, M., Musella, R., Remus, F., Bouchet, J., Ozaki, N., Miyanishi, K., Sekine, T., Sakawa, Y., Sano, T., Kodama, R., Guyot, F., and Benuzzi-Mounaix, A.

Subjects

Physics - Geophysics, Astrophysics - Earth and Planetary Astrophysics

Abstract

We report an experimental study of the phase diagrams of periclase (MgO), enstatite (MgSiO3) and forsterite (Mg2SiO4) at high pressures. We investigated with laser driven decaying shocks the pressure/temperature curves of MgO, MgSiO3 and Mg2SiO4 between 0.2-1.2 TPa, 0.12-0.5 TPa and 0.2-0.85 TPa respectively. A melting signature has been observed in MgO at 0.47 TPa and 9860 K, while no phase changes were observed neither in MgSiO3 nor in Mg2SiO4. An increasing of reflectivity of MgO, MgSiO3 and Mg2SiO4 liquids have been detected at 0.55 TPa -12 760 K, 0.15 TPa - 7540 K, 0.2 TPa - 5800 K, respectively. In contrast to SiO2, melting and metallization of these compounds do not coincide implying the presence of poor electrically conducting liquids close to the melting lines. This has important implications for the generation of dynamos in Super-earths mantles.

Published

2016

19. Release dynamics of nanodiamonds created by laser-driven shock-compression of polyethylene terephthalate

Author

(0000-0001-6363-1780) Heuser, B., Bergermann, A., Stevenson, M. G., Ranjan, D., He, Z., Lütgert, J., Schumacher, S., Bethkenhagen, M., Descamps, A., Galtier, E., Gleason, A. E., Khaghani, D., Glenn, G. D., Cunningham, E. F., Glenzer, S. H., Hartley, N. J., Hernandez, J.-A., Humphries, O. S., Katagiri, K., Ja Lee, H., McBride, E. E., Miyanishi, K., Nagler, B., Ofori-Okai, B., Ozaki, N., Pandolfi, S., Qu, C., Thomas May, P., Redmer, R., Schoenwaelder, C., Sueda, K., Yabuuchi, T., Yabashi, M., Lukic, B., Rack, A., Zinta, L. M. V., Vinci, T., Benuzzi-Mounaix, A., Ravasio, A., (0000-0002-6350-4180) Kraus, D., (0000-0001-6363-1780) Heuser, B., Bergermann, A., Stevenson, M. G., Ranjan, D., He, Z., Lütgert, J., Schumacher, S., Bethkenhagen, M., Descamps, A., Galtier, E., Gleason, A. E., Khaghani, D., Glenn, G. D., Cunningham, E. F., Glenzer, S. H., Hartley, N. J., Hernandez, J.-A., Humphries, O. S., Katagiri, K., Ja Lee, H., McBride, E. E., Miyanishi, K., Nagler, B., Ofori-Okai, B., Ozaki, N., Pandolfi, S., Qu, C., Thomas May, P., Redmer, R., Schoenwaelder, C., Sueda, K., Yabuuchi, T., Yabashi, M., Lukic, B., Rack, A., Zinta, L. M. V., Vinci, T., Benuzzi-Mounaix, A., Ravasio, A., and (0000-0002-6350-4180) Kraus, D.

Abstract

Laser-driven dynamic compression experiments of plastic materials have found surprisingly fast formation of nanodiamonds (ND) via X-ray probing. This mechanism is relevant for planetary models, but could also open efficient synthesis routes for tailored NDs. We investigate the release mechanics of compressed NDs by molecular dynamics simulation of the isotropic expansion of finite size diamond from different P-T states. Analysing the structural integrity along different release paths via molecular dynamic simulations, we found substantial disintegration rates upon shock release, increasing with the on-Hugnoiot shock temperature. We also find that recrystallization can occur after the expansion and hence during the release, depending on subsequent cooling mechanisms. Our study suggests higher ND recovery rates from off-Hugoniot states, e.g., via double-shocks, due to faster cooling. Laser-driven shock compression experiments of polyethylene terephthalate (PET) samples with in situ X-ray probing at the simulated conditions found diamond signal that persists up to 11 ns after breakout. In the diffraction pattern, we observed peak shifts, which we attribute to thermal expansion of the NDs and thus a total release of pressure, which indicates the stability of the released NDs.

Published

2024

20. Temporal evolution of pressure profiles for laser-induced cavitation bubble on the metal surface.

Author

Hironaka, Y., Shigemori, K., Ozaki, N., Kurita, T., and Kodama, R.

Subjects

METALLIC surfaces, PLASMA confinement, CAVITATION, LASER ablation, PLASMA interactions, MICROBUBBLE diagnosis

Abstract

When a laser is focused on an underwater object, it experiences a large amount of pressure owing to the plasma confinement effect of water. A hemispherical bubble is generated on the surface of the object, and large pressure is generated when the bubble collapses. In this study, we conducted experiments using different laser energies to analyze the pressure–time histories associated with bubble contraction. The maximum pressure was 10%–40% of the laser ablation pressure, whereas the pressure pulse width was 5–10 times longer than the laser pulse width. Furthermore, the bubble motion could be adiabatically explained, except for the plasma interaction region. The results indicate that the pressure at which the bubble collapses does not depend on the maximum size of the generated bubble but depends on the energy of water vapor within the bubble. [ABSTRACT FROM AUTHOR]

Published

2023

21. Mode Transition from Fast-Gas Ionization Wave to Laser-Supported Detonation Wave

Author

Shimamura, K., Ozaki, N., Matsui, K., Komurasaki, K., Sasoh, Akihiro, editor, Aoki, Toshiyuki, editor, and Katayama, Masahide, editor

Published

2019

22. Observation of ultra-high energy density state with x-ray free electron laser SACLA

Author

Maeda, Y., Hironaka, Y., Iwasaki, T., Kawasaki, K., Sakawa, Y., Izumi, T., Ota, M., Egashira, S., Nakagawa, Y., Higashi, N., Sentoku, Y., Kodama, R., Ozaki, N., Matsuoka, T., Somekawa, T., Yabuuchi, T., Inubushi, Y., Togashi, T., Kon, A., Sueda, K., Miyanishi, K., Shingubara, S., Shimizu, T., Okumura, A., and Shigemori, K.

Published

2020

23. Advanced spectroscopic investigation of colour centres in LiF crystals irradiated with monochromatic hard x-rays

Author

Vincenti, M A, primary, Montereali, R M, additional, Bonfigli, F, additional, Nichelatti, E, additional, Nigro, V, additional, Piccinini, M, additional, Koenig, M, additional, Mabey, P, additional, Rigon, G, additional, Dabrowski, H J, additional, Benkadoum, Y, additional, Mercere, P, additional, Da Silva, P, additional, Pikuz, T, additional, Ozaki, N, additional, Makarov, S, additional, Pikuz, S, additional, and Albertazzi, B, additional

Published

2024

24. Abnormal asymmetries in subcortical brain volume in schizophrenia

Author

Okada, N, Fukunaga, M, Yamashita, F, Koshiyama, D, Yamamori, H, Ohi, K, Yasuda, Y, Fujimoto, M, Watanabe, Y, Yahata, N, Nemoto, K, Hibar, DP, van Erp, TGM, Fujino, H, Isobe, M, Isomura, S, Natsubori, T, Narita, H, Hashimoto, N, Miyata, J, Koike, S, Takahashi, T, Yamasue, H, Matsuo, K, Onitsuka, T, Iidaka, T, Kawasaki, Y, Yoshimura, R, Suzuki, M, Turner, JA, Takeda, M, Thompson, PM, Ozaki, N, Kasai, K, and Hashimoto, R

Subjects

Clinical Research, Mental Health, Brain Disorders, Neurosciences, Schizophrenia, Aetiology, 2.1 Biological and endogenous factors, Mental health, Adult, Amygdala, Basal Ganglia, Brain, Brain Mapping, Cohort Studies, Cross-Sectional Studies, Female, Functional Laterality, Hippocampus, Humans, Image Processing, Computer-Assisted, Magnetic Resonance Imaging, Male, Middle Aged, Psychiatric Status Rating Scales, Putamen, Thalamus, Biological Sciences, Medical and Health Sciences, Psychology and Cognitive Sciences, Psychiatry

Abstract

Subcortical structures, which include the basal ganglia and parts of the limbic system, have key roles in learning, motor control and emotion, but also contribute to higher-order executive functions. Prior studies have reported volumetric alterations in subcortical regions in schizophrenia. Reported results have sometimes been heterogeneous, and few large-scale investigations have been conducted. Moreover, few large-scale studies have assessed asymmetries of subcortical volumes in schizophrenia. Here, as a work completely independent of a study performed by the ENIGMA consortium, we conducted a large-scale multisite study of subcortical volumetric differences between patients with schizophrenia and controls. We also explored the laterality of subcortical regions to identify characteristic similarities and differences between them. T1-weighted images from 1680 healthy individuals and 884 patients with schizophrenia, obtained with 15 imaging protocols at 11 sites, were processed with FreeSurfer. Group differences were calculated for each protocol and meta-analyzed. Compared with controls, patients with schizophrenia demonstrated smaller bilateral hippocampus, amygdala, thalamus and accumbens volumes as well as intracranial volume, but larger bilateral caudate, putamen, pallidum and lateral ventricle volumes. We replicated the rank order of effect sizes for subcortical volumetric changes in schizophrenia reported by the ENIGMA consortium. Further, we revealed leftward asymmetry for thalamus, lateral ventricle, caudate and putamen volumes, and rightward asymmetry for amygdala and hippocampal volumes in both controls and patients with schizophrenia. Also, we demonstrated a schizophrenia-specific leftward asymmetry for pallidum volume. These findings suggest the possibility of aberrant laterality in neural pathways and connectivity patterns related to the pallidum in schizophrenia.

Published

2016

25. Melting of iron close to Earth's inner core boundary conditions and beyond

Author

Harmand, M., Ravasio, A., Mazevet, S., Bouchet, J., Denoeud, A., Dorchies, F., Feng, Y., Fourment, C., Galtier, E ., Gaudin, J., Guyot, F., Kodama, R., Koenig, M., Lee, H. J., Miyanishi, K., Morard, G., Musella, R., Nagler, B., Nakatsutsumi, M., Ozaki, N., Recoules, V., Toleikis, S., Vinci, T., Zastrau, U., Zhu, D., and Benuzzi-Mounaix, A.

Subjects

Physics - Geophysics, Condensed Matter - Materials Science

Abstract

Several important geophysical features such as heat flux at the Core-Mantle Boundary or geodynamo production are intimately related with the temperature profile in the Earth's core. However, measuring the melting curve of iron at conditions corresponding to the Earth inner core boundary under pressure of 330 GPa has eluded scientists for several decades. Significant discrepancies in previously reported iron melting temperatures at high pressure have called into question the validity of dynamic measurements. We report measurements made with a novel approach using X-ray absorption spectroscopy using an X-ray free electron laser source coupled to a laser shock experiment. We determine the state of iron along the shock Hugoniot up to 420 GPa (+/- 50) and 10800 K (+/- 1390) and find an upper boundary for the melting curve of iron by detecting solid iron at 130 GPa and molten at 260, 380 and 420 GPa along the shock Hugoniot. Our result establishes unambiguous agreement between dynamic measurement and recent extrapolations from static data thus resolving the long-standing controversy over the reliability of using dynamic compression to study the melting of iron at conditions close to the Earth's inner core boundary and beyond., Comment: 9 pages 3 figures

Published

2014

26. Micron-scale phenomena observed in a turbulent laser-produced plasma

Author

Rigon, G., Albertazzi, B., Pikuz, T., Mabey, P., Bouffetier, V., Ozaki, N., Vinci, T., Barbato, F., Falize, E., Inubushi, Y., Kamimura, N., Katagiri, K., Makarov, S., Manuel, M. J.-E., Miyanishi, K., Pikuz, S., Poujade, O., Sueda, K., Togashi, T., Umeda, Y., Yabashi, M., Yabuuchi, T., Gregori, G., Kodama, R., Casner, A., and Koenig, M.

Published

2021

27. In Situ Characterization of XFEL Beam Intensity Distribution and Focusability by High-Resolution LiF Crystal Detector

Author

Pikuz, T. A., Faenov, A. Ya., Matsuoka, T., Albertazzi, B., Ozaki, N., Hartely, N., Muray Ricardo Arturo, O., Yabuuchi, T., Habara, H., Matsuyama, S., Yamauchi, K., Inubushi, Y., Togashi, T., Yumoto, H., Tange, Y., Tono, K., Sato, Y., Yabashi, M., Nishikino, M., Kawachi, T., Mitrofanov, A., Pikuz, S. A., Bleiner, D., Grum-Grzhimailo, A., Rosanov, N. N., Vysotina, N. V., Harmand, M., Koenig, M., Tanaka, K. A., Ishikawa, T., Kodama, R., Kawachi, Tetsuya, editor, Bulanov, Sergei V., editor, Daido, Hiroyuki, editor, and Kato, Yoshiaki, editor

Published

2018

28. Laser-shock compression experiment on magnesium hydride

Author

Morioka, S., Ozaki, N., Hosomi, M., Katagiri, K., Matsuoka, T., Miyanishi, K., Okuchi, T., Sano, T., Umeda, Y., and Kodama, R.

Published

2019

29. Ultrafast anisotropic disordering in graphite driven by intense hard X-ray pulses

Author

Hartley, N.J., Grenzer, J., Lu, W., Huang, L.G., Inubushi, Y., Kamimura, N., Katagiri, K., Kodama, R., Kon, A., Lipp, V., Makita, M., Matsuoka, T., Medvedev, N., Nakajima, S., Ozaki, N., Pikuz, T., Rode, A.V., Rohatsch, K., Sagae, D., Schuster, A.K., Tono, K., Vorberger, J., Yabuuchi, T., and Kraus, D.

Published

2019

30. Phosphorus Recovery from Sewage in a Pilot-Scale UASB-DHS System

Author

Nurmiyanto, A., Kodera, H., Kindaichi, T., Ozaki, N., Ohashi, A., di Prisco, Marco, Series editor, Chen, Sheng-Hong, Series editor, Solari, Giovanni, Series editor, Vayas, Ioannis, Series editor, and Mannina, Giorgio, editor

Published

2017

31. Effects of hydrogen concentration in ablator material on stimulated Raman scattering, two-plasmon decay, and hot electrons for direct-drive inertial confinement fusion

Author

Kawasaki, K., primary, Cristoforetti, G., additional, Idesaka, T., additional, Hironaka, Y., additional, Tanaka, D., additional, Batani, D., additional, Fujioka, S., additional, Gizzi, L. A., additional, Hata, M., additional, Johzaki, T., additional, Katagiri, K., additional, Kodama, R., additional, Matsuo, S., additional, Nagatomo, H., additional, Nicolai, Ph., additional, Ozaki, N., additional, Sentoku, Y., additional, Takizawa, R., additional, Yogo, A., additional, Yamada, H., additional, and Shigemori, K., additional

Published

2023

32. Comparison of quality of life and psychological distress in patients with tongue cancer undergoing a total/subtotal glossectomy or extended hemiglossectomy and free flap transfer: a prospective evaluation

Author

Suzuki, K., primary, Nishio, N., additional, Kimura, H., additional, Tokura, T., additional, Kishi, S., additional, Ozaki, N., additional, Fujimoto, Y., additional, and Sone, M., additional

Published

2023

33. Ultrahigh-energy density state in nanowire arrays irradiated with picosecond kilojoule-class ultra-intense laser.

Author

Tanaka, D., Maeda, Y., Hironaka, Y., Kawasaki, K., Higashi, N., Iwata, N., Sentoku, Y., Kodama, R., Ozaki, N., Somekawa, T., Shinguubara, S., Shimizu, T., Sawada, H., and Shigemori, K.

Subjects

NANOWIRES, ULTRASHORT laser pulses, DENSITY of states, INERTIAL confinement fusion, HOT carriers, FEMTOSECOND lasers, LASERS

Abstract

Ultrahigh-energy density (UHED) states greater than 1 Gbar pressure are typically observed under extreme conditions, such as in the core of an inertial confinement fusion implosion. A novel alternative approach for generating volumetric UHED states is to use nanowire arrays irradiated with a femtosecond ultrahigh-intensity laser. In this paper, we present an experimental investigation on laser absorption and energy transport in nanowire arrays irradiated with a picosecond kilojoule petawatt laser. The laser–target interactions were studied by measuring the x-ray emission and escaping hot electrons from a bare Cu foil and a foil with a nanowire array grown on its surface. The measured Cu-Kα and He-α emissions from the nanowire array were higher than those from the flat foil. In addition, hot electrons observed from the front surface of the nanowire array were enhanced. On the other hand, despite the stronger Kα emission from the nanowire array and the enhancement of hot electrons escaping from the front surface of the nanowire array, the number of hot electrons observed from the rear side of the flat foil target was slightly lower than that of the flat foil. A comparison of the experimental results with the results of a two-dimensional particle-in-cell simulation code suggested that the magnetic fields generated around the periodic nanowire array trap hot electrons, improving the electron-to-target energy coupling and efficiently producing UHED states. [ABSTRACT FROM AUTHOR]

Published

2023

34. Indirect evidence for elemental hydrogen in laser-compressed hydrocarbons

Author

Kraus, D., primary, Vorberger, J., additional, Hartley, N. J., additional, Lütgert, J., additional, Rödel, M., additional, Chekrygina, D., additional, Döppner, T., additional, van Driel, T., additional, Falcone, R. W., additional, Fletcher, L. B., additional, Frydrych, S., additional, Galtier, E., additional, Gericke, D. O., additional, Glenzer, S. H., additional, Granados, E., additional, Inubushi, Y., additional, Kamimura, N., additional, Katagiri, K., additional, MacDonald, M. J., additional, MacKinnon, A. J., additional, Matsuoka, T., additional, Miyanishi, K., additional, McBride, E. E., additional, Nam, I., additional, Neumayer, P., additional, Ozaki, N., additional, Pak, A., additional, Ravasio, A., additional, Saunders, A. M., additional, Schuster, A. K., additional, Stevenson, M. G., additional, Sueda, K., additional, Sun, P., additional, Togashi, T., additional, Voigt, K., additional, Yabashi, M., additional, and Yabuuchi, T., additional

Published

2023

35. Optical characterization of lithium fluoride thin-film imaging detectors for monochromatic hard X-rays

Author

Vincenti, M.A., primary, Montereali, R.M., additional, Nichelatti, E., additional, Nigro, V., additional, Piccinini, M., additional, Koenig, M., additional, Mabey, P., additional, Rigon, G., additional, Dabrowski, H.J., additional, Benkadoum, Y., additional, Mercere, P., additional, Da Silva, P., additional, Pikuz, T., additional, Ozaki, N., additional, Makarov, S., additional, Pikuz, S., additional, and Albertazzi, B., additional

Published

2023

36. Corrigendum to ultrafast anisotropic disordering in graphite driven by intense hard X-ray pulses

Author

Hartley, N.J., primary, Grenzer, J., additional, Lu, W., additional, Huang, L.G., additional, Inubushi, Y., additional, Kamimura, N., additional, Katagiri, K., additional, Kodama, R., additional, Kon, A., additional, Lipp, V., additional, Makita, M., additional, Matsuoka, T., additional, Medvedev, N., additional, Nakajima, S., additional, Ozaki, N., additional, Pikuz, T., additional, Rode, A.V., additional, Sagae, D., additional, Schuster, A.K., additional, Tono, K., additional, Voigt, K., additional, Vorberger, J., additional, Yabuuchi, T., additional, and Kraus, D., additional

Published

2023

37. Indirect evidence for elemental hydrogen in laser-compressed hydrocarbons

Author

(0000-0002-6350-4180) Kraus, D., (0000-0001-5926-9192) Vorberger, J., Hartley, N. J., Lütgert, J., Rödel, M., Chekrygina, D., Döppner, T., Driel, T., Falcone, R. W., Fletcher, L. B., Frydrych, S., Galtier, E., Gericke, D. O., Glenzer, S. H., Granados, E., Inubushi, Y., Kamimura, N., Katagiri, K., Macdonald, M. J., Mackinnon, A. J., Matsuoka, T., Miyanishi, K., McBride, E. E., Nam, I., Neumayer, P., Ozaki, N., Pak, A., Ravasio, A., Saunders, A. M., Schuster, A. K., Stevenson, M. G., Sueda, K., Sun, P., Togashi, T., Voigt, K., Yabashi, M., Yabuuchi, T., (0000-0002-6350-4180) Kraus, D., (0000-0001-5926-9192) Vorberger, J., Hartley, N. J., Lütgert, J., Rödel, M., Chekrygina, D., Döppner, T., Driel, T., Falcone, R. W., Fletcher, L. B., Frydrych, S., Galtier, E., Gericke, D. O., Glenzer, S. H., Granados, E., Inubushi, Y., Kamimura, N., Katagiri, K., Macdonald, M. J., Mackinnon, A. J., Matsuoka, T., Miyanishi, K., McBride, E. E., Nam, I., Neumayer, P., Ozaki, N., Pak, A., Ravasio, A., Saunders, A. M., Schuster, A. K., Stevenson, M. G., Sueda, K., Sun, P., Togashi, T., Voigt, K., Yabashi, M., and Yabuuchi, T.

Abstract

We demonstrate a significantly simplified experimental approach for investigating liquid metallic hydrogen, which is crucial to understand the internal structure and evolution of giant planets. Plastic samples were shockcompressed and then probed by short pulses of X-rays generated by free electron lasers. By comparison with ab initio simulations, we provide indirect evidence for the creation of elemental hydrogen in shock-compressed plastics at ∼150GPa and ∼5,000K and thus in a regime where hydrogen is predicted to be metallic. Being the most common form of condensed matter in our solar system, and ostensibly the simplest of all elements, hydrogen is the model case for many theoretical studies and we provide a new possibility to benchmark models for conditions with extreme pressures and temperatures. Moreover, this approach will also allow to probe the chemical behavior of metallic hydrogen in mixture with other elements, which, besides its importance for planetary physics, may open up promising pathways for the synthesis of new materials.

Published

2023

38. Direct LiF imaging diagnostics on refractive X-ray focusing at the EuXFEL High Energy Density instrument

Author

Makarov, S, Makita, M, Nakatsutsumi, M, Pikuz, T, Ozaki, N, Preston, T, Appel, K, Konopkova, Z, Cerantola, V, Brambrink, E, Schwinkendorf, J, Mohacsi, I, Burian, T, Chalupsky, J, Hajkova, V, Juha, L, Vozda, V, Nagler, B, Zastrau, U, Pikuz, S, Makarov, Sergey, Makita, Mikako, Nakatsutsumi, Motoaki, Pikuz, Tatiana, Ozaki, Norimasa, Preston, Thomas R., Appel, Karen, Konopkova, Zuzana, Cerantola, Valerio, Brambrink, Erik, Schwinkendorf, Jan-Patrick, Mohacsi, Istvan, Burian, Tomas, Chalupsky, Jaromir, Hajkova, Vera, Juha, Libor, Vozda, Vojtech, Nagler, Bob, Zastrau, Ulf, Pikuz, Sergey, Makarov, S, Makita, M, Nakatsutsumi, M, Pikuz, T, Ozaki, N, Preston, T, Appel, K, Konopkova, Z, Cerantola, V, Brambrink, E, Schwinkendorf, J, Mohacsi, I, Burian, T, Chalupsky, J, Hajkova, V, Juha, L, Vozda, V, Nagler, B, Zastrau, U, Pikuz, S, Makarov, Sergey, Makita, Mikako, Nakatsutsumi, Motoaki, Pikuz, Tatiana, Ozaki, Norimasa, Preston, Thomas R., Appel, Karen, Konopkova, Zuzana, Cerantola, Valerio, Brambrink, Erik, Schwinkendorf, Jan-Patrick, Mohacsi, Istvan, Burian, Tomas, Chalupsky, Jaromir, Hajkova, Vera, Juha, Libor, Vozda, Vojtech, Nagler, Bob, Zastrau, Ulf, and Pikuz, Sergey

Abstract

The application of fluorescent crystal media in wide-range X-ray detectors provides an opportunity to directly image the spatial distribution of ultra-intense X-ray beams including investigation of the focal spot of free-electron lasers. Here the capabilities of the micro- and nano-focusing X-ray refractive optics available at the High Energy Density instrument of the European XFEL are reported, as measured in situ by means of a LiF fluorescent detector placed into and around the beam caustic. The intensity distribution of the beam focused down to several hundred nanometers was imaged at 9 keV photon energy. A deviation from the parabolic surface in a stack of nanofocusing Be compound refractive lenses (CRLs) was found to affect the resulting intensity distribution within the beam. Comparison of experimental patterns in the far field with patterns calculated for different CRL lens imperfections allowed the overall inhomogeneity in the CRL stack to be estimated. The precise determination of the focal spot size and shape on a sub-micrometer level is essential for a number of high energy density studies requiring either a pin-size backlighting spot or extreme intensities for X-ray heating.

Published

2023

39. Occurrence of per- and polyfluoroalkyl substances in aquatic environments and their removal by advanced oxidation processes.

Author

Mojiri, A, Zhou, JL, Ozaki, N, KarimiDermani, B, Razmi, E, Kasmuri, N, Mojiri, A, Zhou, JL, Ozaki, N, KarimiDermani, B, Razmi, E, and Kasmuri, N

Abstract

Per- and polyfluoroalkyl substances (PFAS), one of the main categories of emerging contaminants, are a family of fluorinated organic compounds of anthropogenic origin. PFAS can endanger the environment and human health because of their wide application in industries, long-term persistence, unique properties, and bioaccumulation potential. This study sought to explain the accumulation of different PFAS in water bodies. In aquatic environments, PFAS concentrations range extensively from <0.03 (groundwater; Melbourne, Australia) to 51,000 ng/L (Groundwater, Sweden). Additionally, bioaccumulation of PFAS in fish and water biota has been stated to range from 0.2 (Burbot, Lake Vättern, Sweden) to 13,900 ng/g (Bluegill samples, U.S.). Recently, studies have focused on PFAS removal from aqueous solutions; one promising technique is advanced oxidation processes (AOPs), including microwaves, ultrasound, ozonation, photocatalysis, UV, electrochemical oxidation, the Fenton process, and hydrogen peroxide-based and sulfate radical-based systems. The removal efficiency of PFAS ranges from 3% (for MW) to 100% for UV/sulfate radical as a hybrid reactor. Therefore, a hybrid reactor can be used to efficiently degrade and remove PFAS. Developing novel, efficient, cost-effective, and sustainable AOPs for PFAS degradation in water treatment systems is a critical area of research.

Published

2023

40. Shock-Induced Melting and Recrystallization of MoO3Studied by Dynamic X-Ray Diffraction

Author

Kishimura, H., Kawai, N., Miyanishi, K., Sueda, K., Yabuuchi, T., Nakamura, H., Amouretti, A., Ozaki, N., Aimi, A., and Ichiyanagi, K.

Abstract

Molybdenum(VI) oxide (MoO3) is a promising semiconductor material that can be used in several functional applications. Understanding the structural response of MoO3under high-pressure and high-temperature conditions is important for designing a material used in device applications. An X-ray free electron laser (XFEL) enables the structural response under extreme conditions to be probed at the nanosecond timescale. We describe laser-driven shock compression experiments on MoO3using an XFEL to directly observe the structural evolution of MoO3. When a laser-driven shock wave arrives at a pressure of 61 GPa, MoO3melts immediately and remains in the molten state for a few nanoseconds. Rapid recrystallization to the α-MoO3phase and a high-pressure phase MoO3-II is also observed on nanosecond timescales during pressure release. Our results provide insights into the kinetic and phase transition under shock compression and represent the advancement toward the understanding structural response of MoO3under high-pressure, high-temperature conditions, which has not been studied.

Published

2024

41. Laser-driven shock compression of “synthetic planetary mixtures” of water, ethanol, and ammonia

Author

Guarguaglini, M., Hernandez, J.-A., Okuchi, T., Barroso, P., Benuzzi-Mounaix, A., Bethkenhagen, M., Bolis, R., Brambrink, E., French, M., Fujimoto, Y., Kodama, R., Koenig, M., Lefevre, F., Miyanishi, K., Ozaki, N., Redmer, R., Sano, T., Umeda, Y., Vinci, T., and Ravasio, A.

Published

2019

42. Laboratory study of stationary accretion shock relevant to astrophysical systems

Author

Mabey, P., Albertazzi, B., Falize, E., Michel, Th., Rigon, G., Van Box Som, L., Pelka, A., Brack, F.-E., Kroll, F., Filippov, E., Gregori, G., Kuramitsu, Y., Lamb, D. Q., Li, C., Ozaki, N., Pikuz, S., Sakawa, Y., Tzeferacos, P., and Koenig, M.

Published

2019

43. Evaluation of driving performance in schizophrenic patients

Author

Konishi, Y., primary, Kitagawa, S., additional, Iwamoto, K., additional, Yamaguchi, A., additional, Yoshimura, R., additional, and Ozaki, N., additional

Published

2023

44. Multibeam laser–plasma interaction at the Gekko XII laser facility in conditions relevant for direct-drive inertial confinement fusion

Author

Cristoforetti, G., primary, Koester, P., additional, Atzeni, S., additional, Batani, D., additional, Fujioka, S., additional, Hironaka, Y., additional, Hüller, S., additional, Idesaka, T., additional, Katagiri, K., additional, Kawasaki, K., additional, Kodama, R., additional, Mancelli, D., additional, Nicolai, Ph., additional, Ozaki, N., additional, Schiavi, A., additional, Shigemori, K., additional, Takizawa, R., additional, Tamagawa, T., additional, Tanaka, D., additional, Tentori, A., additional, Umeda, Y., additional, Yogo, A., additional, and Gizzi, L. A., additional

Published

2023

45. Spectral and temporal photoluminescence behavior of colloidal PbS quantum dots

Author

Kitamura, S., Senshu, M., Tokushige, H., Katsuyama, T., Ozaki, N., Tanaka, I., and Sugimoto, Y.

Published

2015

46. High-resolution copy number variation analysis of schizophrenia in Japan

Author

Kushima, I, Aleksic, B, Nakatochi, M, Shimamura, T, Shiino, T, Yoshimi, A, Kimura, H, Takasaki, Y, Wang, C, Xing, J, Ishizuka, K, Oya-Ito, T, Nakamura, Y, Arioka, Y, Maeda, T, Yamamoto, M, Yoshida, M, Noma, H, Hamada, S, Morikawa, M, Uno, Y, Okada, T, Iidaka, T, Iritani, S, Yamamoto, T, Miyashita, M, Kobori, A, Arai, M, Itokawa, M, Cheng, M -C, Chuang, Y -A, Chen, C -H, Suzuki, M, Takahashi, T, Hashimoto, R, Yamamori, H, Yasuda, Y, Watanabe, Y, Nunokawa, A, Someya, T, Ikeda, M, Toyota, T, Yoshikawa, T, Numata, S, Ohmori, T, Kunimoto, S, Mori, D, Iwata, N, and Ozaki, N

Published

2017

47. Advanced high resolution x-ray diagnostic for HEDP experiments

Author

Faenov, A. Y., Pikuz, T. A., Mabey, P., Albertazzi, B., Michel, Th., Rigon, G., Pikuz, S. A., Buzmakov, A., Makarov, S., Ozaki, N., Matsuoka, T., Katagiri, K., Miyanishi, K., Takahashi, K., Tanaka, K. A., Inubushi, Y., Togashi, T., Yabuuchi, T., Yabashi, M., Casner, A., Kodama, R., and Koenig, M.

Published

2018

48. High-power laser experiment on developing supercritical shock propagating in homogeneously magnetized plasma of ambient gas origin

Author

Matsukiyo, S., primary, Yamazaki, R., additional, Morita, T., additional, Tomita, K., additional, Kuramitsu, Y., additional, Sano, T., additional, Tanaka, S. J., additional, Takezaki, T., additional, Isayama, S., additional, Higuchi, T., additional, Murakami, H., additional, Horie, Y., additional, Katsuki, N., additional, Hatsuyama, R., additional, Edamoto, M., additional, Nishioka, H., additional, Takagi, M., additional, Kojima, T., additional, Tomita, S., additional, Ishizaka, N., additional, Kakuchi, S., additional, Sei, S., additional, Sugiyama, K., additional, Aihara, K., additional, Kambayashi, S., additional, Ota, M., additional, Egashira, S., additional, Izumi, T., additional, Minami, T., additional, Nakagawa, Y., additional, Sakai, K., additional, Iwamoto, M., additional, Ozaki, N., additional, and Sakawa, Y., additional

Published

2022

49. X-ray diffraction study of phase transformation dynamics of Fe and Fe-Si alloys along the shock Hugoniot using an x-ray free electron laser

Author

Krygier, A., primary, Harmand, M., additional, Albertazzi, B., additional, McBride, E. E., additional, Miyanishi, K., additional, Antonangeli, D., additional, Inubushi, Y., additional, Kodama, R., additional, Koenig, M., additional, Matsuoka, T., additional, Mogni, G., additional, Pietrucci, F., additional, Saitta, A. M., additional, Togashi, T., additional, Umeda, Y., additional, Vinci, T., additional, Yabashi, M., additional, Yabuuchi, T., additional, Fiquet, G., additional, and Ozaki, N., additional

Published

2022

50. Development of an experimental platform for the investigation of laser–plasma interaction in conditions relevant to shock ignition regime

Author

Tamagawa, T., primary, Hironaka, Y., additional, Kawasaki, K., additional, Tanaka, D., additional, Idesaka, T., additional, Ozaki, N., additional, Kodama, R., additional, Takizawa, R., additional, Fujioka, S., additional, Yogo, A., additional, Batani, D., additional, Nicolai, Ph., additional, Cristoforetti, G., additional, Koester, P., additional, Gizzi, L. A., additional, and Shigemori, K., additional

Published

2022