Search

Your search keyword '"Kuramitsu, Y"' showing total 520 results
Start Over Author "Kuramitsu, Y"
520 results on '"Kuramitsu, Y"'

1. Mechanism of generating collisionless shock in magnetized gas plasma driven by laser-ablated target plasma

Author

Matsukiyo, S., Oshida, K., Isayama, S., Yamazaki, R., Morita, T., Takezaki, T., Kuramitsu, Y., Tanaka, S. J., Tomita, K., and Sakawa, Y.

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Mechanism of generating collisionless shock in magnetized gas plasma driven by laser-ablated target plasma is investigated by using one-dimensional full particle-in-cell simulation. The effect of finite injection time of target plasma, mimicking finite width of laser pulse, is taken into account. It was found that the formation of a seed-shock requires a recursor. The precursor is driven by gyrating ions, and its origin varies depending on the injection time of the target plasma. When the injection time is short, the target plasma entering the gas plasma creates a precursor, otherwise, gas ions reflected by the strong piston effect of the target plasma create a precursor. The precursor compresses the background gas plasma, and subsequently, a compressed seed-shock forms in the gas plasma. The parameter dependence on the formation process and propagation characteristics of the seed-shock was discussed. It was confirmed that the seed-shock propagates through the gas plasma exhibiting behavior similar to the shock front of supercritical shocks., Comment: 8 pages, 8 figures

Published
2024

2. Laser-Driven Proton-Only Acceleration in a Multicomponent Near-Critical-Density Plasma

Author

Sakawa, Y., Ishihara, H., Ryazantsev, S. N., Alkhimova, M. A., Kumar, R., Kuramoto, O., Matsumoto, Y., Ota, M., Egashira, S., Nakagawa, Y., Minami, T., Sakai, K., Taguchi, T., Habara, H., Kuramitsu, Y., Morace, A., Abe, Y., Arikawa, Y., Fujioka, S., Kanasaki, M., Asai, T., Morita, T., Fukuda, Y., Pikuz, S., Pikuz, T., Ohira, Y., Doehl, L. N. K., Woolsey, N., and Sano, T.

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

An experimental investigation of collisionless shock ion acceleration is presented using a multicomponent plasma and a high-intensity picosecond duration laser pulse. Protons are the only accelerated ions when a near-critical-density plasma is driven by a laser with a modest normalized vector potential. The results of particle-in-cell simulations imply that collisionless shock may accelerate protons alone selectively, which can be an important tool for understanding the physics of inaccessible collisionless shocks in space and astrophysical plasma.

Published
2024

3. Competition of magnetic reconnections in self-generated and external magnetic fields

Author

Sakai, K., Huang, T. Y., Khasanah, N., Bolouki, N., Chu, H. H., Moritaka, T., Sakawa, Y., Sano, T., Tomita, K., Matsukiyo, S., Morita, T., Takabe, H., Yamazaki, R., Yasuhara, R., Habara, H., and Kuramitsu, Y.

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

We investigate the competition of magnetic reconnections in self-generated and external magnetic fields in laser-produced plasmas. The temporal evolution of plasma structures measured with self-emission imaging shows the vertical expansions and horizontal separation of plasma, which can be signatures of reconnection outflows in self-generated and external magnetic fields, respectively. Because the outflows in self-generated magnetic fields are not clear in the presence of the external magnetic field, the external magnetic field can suppress the magnetic reconnection in self-generated magnetic fields., Comment: 8 pages, 7 figures, High Energy Density Physics, in press

Published
2024
Full Text
View/download PDF

4. Ion-acoustic feature of collective Thomson scattering in non-equilibrium two-stream plasmas

Author

Sakai, K., Nishimoto, T., Isayama, S., Matsukiyo, S., and Kuramitsu, Y.

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

We theoretically and numerically investigate the ion-acoustic features of collective Thomson scattering (CTS) in two-stream plasmas. When the electron distribution functions of two (stationary and moving) components overlap with each other at the phase velocities corresponding to the two resonant peaks of the ion-acoustic feature, the theoretical spectrum shows asymmetry because the rate of electron Landau damping is different for the two peaks. The results of numerical simulations agree well with the theoretical spectra. We also demonstrate the effect of a two-stream-type instability in the ion-acoustic feature. The simulated spectrum in the presence of the instability shows an asymmetry with the opposite trend to the overlapped case, which results from the temporal change of the electron distribution function caused by the instability. Our results show that two-stream plasmas have significant effects on CTS spectra and that the waves resulting from instabilities can be observed in the ion-acoustic feature., Comment: 10 pages, 7 figures. Physics of Plasmas, in press

Published
2022
Full Text
View/download PDF

5. Collective Thomson scattering in non-equilibrium laser produced two-stream plasmas

Author

Sakai, K., Isayama, S., Bolouki, N., Habibi, M. S., Liu, Y. L., Hsieh, Y. H., Chu, H. H., Wang, J., Chen, S. H., Morita, T., Tomita, K., Yamazaki, R., Sakawa, Y., Matsukiyo, S., and Kuramitsu, Y.

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

We investigate collective Thomson scattering (CTS) in two-stream non-equilibrium plasmas analytically, numerically and experimentally. In laboratory astrophysics, CTS is a unique tool to obtain local plasma diagnostics. While the standard CTS theory assumes plasmas to be linear, stationary, isotropic and equilibrium, it is often nonlinear, non-stationary, anisotropic, and non-equilibrium in high energy phenomena relevant to laboratory astrophysics. We theoretically calculate and numerically simulate the CTS spectra in two-stream plasmas as a typical example of non-equilibrium system in space and astrophysical plasmas. The simulation results show the feasibility to diagnose two-stream instability directly via CTS measurements. In order to confirm the non-equilibrium CTS analysis, we have been developing experimental system with high repetition rate table top laser for laboratory astrophysics., Comment: 14 pages, 9 figures, 1 table

Published
2022
Full Text
View/download PDF

6. Detection of current-sheet and bipolar ion flows in a self-generated antiparallel magnetic field of laser-produced plasmas for magnetic reconnection research

Author

Morita, T., Matsukiyo, S., Isayama, S., Kojima, T., Matsuo, S., Pan, Y., Yamazaki, R., Tanaka, S. J., Aihara, K., Sato, Y., Shiota, J., Tomita, K., Takezaki, T., Kuramitsu, Y., Sakai, K., Egashira, S., Ishihara, H., Kuramoto, O., Matsumoto, Y., Maeda, K., and Sakawa, Y.

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

Magnetic reconnection in laser-produced magnetized plasma is investigated by using optical diagnostics. The magnetic field is generated via Biermann battery effect, and the inversely directed magnetic field lines interact with each other. It is shown by self-emission measurement that two colliding plasmas stagnate on a mid-plane forming two planar dense regions, and that they interact later in time. Laser Thomson scattering spectra are distorted in the direction of the self-generated magnetic field, indicating asymmetric ion velocity distribution and plasma acceleration. In addition, the spectra perpendicular to the magnetic field show different peak intensity, suggesting an electron current formation. These results are interpreted as magnetic field dissipation, reconnection, and outflow acceleration. Two-directional laser Thomson scattering is, as discussed here, a powerful tool for the investigation of microphysics in the reconnection region., Comment: 13 pages, 12 figures, Physical Review E, in press

Published
2022
Full Text
View/download PDF

7. 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
Full Text
View/download PDF

8. 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
Full Text
View/download PDF

9. Incidence and Distribution of Deep Vein Thrombosis Following Total Hip Arthroplasty Using an Anterolateral Supine Approach

Author

Itou J, Munakata Y, Kuramitsu Y, Madarame H, and Okazaki K

Subjects
anterolateral supine approach, deep vein thrombosis, pulmonary thromboembolism, total hip arthroplasty, venous thromboembolism, Orthopedic surgery, RD701-811, Diseases of the musculoskeletal system, RC925-935
Abstract

Junya Itou, Yutaro Munakata, Yujiro Kuramitsu, Hiromi Madarame, Ken Okazaki Department of Orthopaedic Surgery, Tokyo Women’s Medical University, Tokyo, JapanCorrespondence: Ken Okazaki, Department of Orthopaedic Surgery, Tokyo Women’s Medical University, 8-1 Kawada-cho, Shinjuku-ku, Tokyo, 162-8666, Japan, Tel +81-3-3353-8111, Fax +81-3-5269-7618, Email okazaki.ken@twmu.ac.jpPurpose: Venous thromboembolism (VTE) is a potential major complication in patients undergoing total hip arthroplasty (THA). However, the incidence of VTE following THA using anterolateral supine approach (ALS) has not been reported. The purpose of this study was to investigate the incidence of perioperative VTE and the distribution and characteristics of deep vein thrombosis (DVT) following ALS THA.Patients and Methods: This retrospective single-arm study analyzed the 182 consecutive hips of 164 patients who underwent primary ALS THA. Pharmacological prophylaxis consisted of enoxaparin 20 mg twice daily for approximately 6 days starting 24 h postoperatively until duplex ultrasonography was performed to determine whether postoperative DVT was present. DVT was assessed by whole-leg Doppler ultrasound, and the location and characteristics of any thrombus were recorded. If pulmonary thromboembolism was suspected, contrast-enhanced computed tomography was performed.Results: The overall incidence of VTE was 9.9% for DVT (18/182 hips) and 0.5% for pulmonary thromboembolism (1/182 hips). Most DVTs were in the soleal vein on the affected side and showed isoechoic or hypoechoic echogenicity. All thrombi were non-floating.Conclusion: Following ALS THA with standard pharmacological prophylaxis and an early weight-bearing protocol, the incidence of perioperative DVT was approximately 10%, mostly occurring in the lower leg.Keywords: anterolateral supine approach, deep vein thrombosis, pulmonary thromboembolism, total hip arthroplasty, venous thromboembolism

Published
2023

10. Anomalous plasma acceleration in colliding high-power laser-produced plasmas

Author

Morita, T., Nagashima, K., Edamoto, M., Tomita, K., Sano, T., Itadani, Y., Kumar, R., Ota, M., Egashira, S., Yamazaki, R., Tanaka, S. J., Tomita, S., Tomiya, S., Toda, H., Miyata, I., Kakuchi, S., Sei, S., Ishizaka, N., Matsukiyo, S., Kuramitsu, Y., Ohira, Y., Hoshino, M., and Sakawa, Y.

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

We developed an experimental platform for studying magnetic reconnection in an external magnetic field with simultaneous measurements of plasma imaging, flow velocity, and magnetic-field variation. Here, we investigate the stagnation and acceleration in counter-streaming plasmas generated by high-power laser beams. A plasma flow perpendicular to the initial flow directions is measured with laser Thomson scattering. The flow is, interestingly, accelerated toward the high-density region, which is opposite to the direction of the acceleration by pressure gradients. This acceleration is possibly interpreted by the interaction of two magnetic field loops initially generated by Biermann battery effect, resulting in a magnetic reconnection forming a single field loop and additional acceleration by a magnetic tension force., Comment: 6 pages, 4 figures, Physics of Plasmas, in press

Published
2019
Full Text
View/download PDF

11. Full particle-in-cell simulation of the interaction between two plasmas for laboratory experiments on the generation of magnetized collisionless shocks with high-power lasers

Author

Umeda, T., Yamazaki, R., Ohira, Y., Ishizaka, N., Kakuchi, S., Kuramitsu, Y., Matsukiyo, S., Miyata, I., Morita, T., Sakawa, Y., Sano, T., Sei, S., Tanaka, S. J., Toda, H., and Tomita, S.

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

A preliminary numerical experiment is conducted for laboratory experiments on the generation of magnetized collisionless shocks with high-power lasers by using one-dimensional particle-in-cell simulation. The present study deals with the interaction between a moving Aluminum plasma and a Nitrogen plasma at rest. In the numerical experiment, the Nitrogen plasma is unmagnetized or magnetized by a weak external magnetic field. Since the previous study suggested the generation of spontaneous magnetic field in the piston (Aluminum) plasma due to the Biermann battery, the effect of the magnetic field is of interest. Sharp jumps of electron density and magnetic field are observed around the interface between the two plasmas as long as one of the two plasmas is magnetized, which indicates the formation of tangential electron-magneto-hydro-dynamic discontinuity. When the Aluminum plasma is magnetized, strong compression of both density and magnetic field takes place in the pure Aluminum plasma during the gyration of Nitrogen ions in the Aluminum plasma region. The formation of a shock downstream is indicated from the shock jump condition. The result suggests that the spontaneous magnetic field in the piston (Aluminum) plasma plays an essential role in the formation of a perpendicular collisionless shock., Comment: 12 pages, 5 figures, 1 table, Physics of Plasmas, in press. Paper with full resolution images is http://www.phys.aoyama.ac.jp/~ryo/papers/labshock_PoP.pdf

Published
2019
Full Text
View/download PDF

13. 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
Full Text
View/download PDF

14. Robustness of large-area suspended graphene under interaction with intense laser

Author

Kuramitsu, Y., Minami, T., Hihara, T., Sakai, K., Nishimoto, T., Isayama, S., Liao, Y. T., Wu, K. T., Woon, W. Y., Chen, S. H., Liu, Y. L., He, S. M., Su, C. Y., Ota, M., Egashira, S., Morace, A., Sakawa, Y., Abe, Y., Habara, H., Kodama, R., Döhl, L. N. K., Woolsey, N., Koenig, M., Kumar, H. S., Ohnishi, N., Kanasaki, M., Asai, T., Yamauchi, T., Oda, K., Kondo, Ko., Kiriyama, H., and Fukuda, Y.

Published
2022
Full Text
View/download PDF

15. Optimization of laser-driven quantum beam generation and the applications with artificial intelligence

Author

Kuramitsu, Y., primary, Taguchi, T., additional, Nikaido, F., additional, Minami, T., additional, Hihara, T., additional, Suzuki, S., additional, Oda, K., additional, Kuramoto, K., additional, Yasui, T., additional, Abe, Y., additional, Ibano, K., additional, Takabe, H., additional, Chu, C. M., additional, Wu, K. T., additional, Woon, W. Y., additional, Chen, S. H., additional, Jao, C. S., additional, Chen, Y. C., additional, Liu, Y. L., additional, Morace, A., additional, Yogo, A., additional, Arikawa, Y., additional, Kohri, H., additional, Tokiyasu, A., additional, Kodaira, S., additional, Kusumoto, T., additional, Kanasaki, M., additional, Asai, T., additional, Fukuda, Y., additional, Kondo, K., additional, Kiriyama, H., additional, Hayakawa, T., additional, Tanaka, S. J., additional, Isayama, S., additional, Watamura, N., additional, Suzuki, H., additional, Kumar, H. S., additional, Ohnishi, N., additional, Pikuz, T., additional, Filippov, E., additional, Sakai, K., additional, Yasuhara, R., additional, Nakata, M., additional, Ishikawa, R., additional, Hoshi, T., additional, Mizuta, A., additional, Bolouki, N., additional, Saura, N., additional, Benkadda, S., additional, Koenig, M., additional, and Hamaguchi, S., additional

Published
2024
Full Text
View/download PDF

17. Automation of etch pit analyses on solid-state nuclear track detectors with machine learning for laser-driven ion acceleration

Author

Taguchi, T., primary, Minami, T., additional, Hihara, T., additional, Nikaido, F., additional, Asai, T., additional, Sakai, K., additional, Abe, Y., additional, Yogo, A., additional, Arikawa, Y., additional, Kohri, H., additional, Tokiyasu, A. O., additional, Chu, C. M., additional, Woon, W. Y., additional, Kodaira, S., additional, Kanasaki, M., additional, Fukuda, Y., additional, and Kuramitsu, Y., additional

Published
2024
Full Text
View/download PDF

19. Collective Thomson scattering measurements of electron feature using stimulated Brillouin scattering in laser-produced plasmas

Author

Bolouki, N., Sakai, K., Huang, T.Y., Isayama, S., Liu, Y.L., Peng, C.W., Chen, C.H., Khasanah, N., Chu, H.H., Moritaka, T., Tomita, K., Sato, Y., Uchino, K., Morita, T., Matsukiyo, S., Hara, Y., Shimogawara, H., Sakawa, Y., Sakata, S., Kojima, S., Fujioka, S., Shoji, Y., Tomiya, S., Yamazaki, R., Koenig, M., and Kuramitsu, Y.

Published
2019
Full Text
View/download PDF

23. Electron acceleration by wave turbulence in a magnetized plasma

Author

Rigby, A., Cruz, F., Albertazzi, B., Bamford, R., Bell, A. R., Cross, J. E., Fraschetti, F., Graham, P., Hara, Y., Kozlowski, P. M., Kuramitsu, Y., Lamb, D. Q., Lebedev, S., Marques, J. R., Miniati, F., Morita, T., Oliver, M., Reville, B., Sakawa, Y., Sarkar, S., Spindloe, C., Trines, R., Tzeferacos, P., Silva, L. O., Bingham, R., Koenig, M., and Gregori, G.

Published
2018
Full Text
View/download PDF

26. Supersonic plasma turbulence in the laboratory

Author

White, T. G., Oliver, M. T., Mabey, P., Kühn-Kauffeldt, M., Bott, A. F. A., Döhl, L. N. K., Bell, A. R., Bingham, R., Clarke, R., Foster, J., Giacinti, G., Graham, P., Heathcote, R., Koenig, M., Kuramitsu, Y., Lamb, D. Q., Meinecke, J., Michel, Th., Miniati, F., Notley, M., Reville, B., Ryu, D., Sarkar, S., Sakawa, Y., Selwood, M. P., Squire, J., Scott, R. H. H., Tzeferacos, P., Woolsey, N., Schekochihin, A. A., and Gregori, G.

Published
2019
Full Text
View/download PDF

29. Detection of current-sheet and bipolar ion flows in a self-generated antiparallel magnetic field of laser-produced plasmas for magnetic reconnection research

Author

Morita, T., primary, Kojima, T., additional, Matsuo, S., additional, Matsukiyo, S., additional, Isayama, S., additional, Yamazaki, R., additional, Tanaka, S. J., additional, Aihara, K., additional, Sato, Y., additional, Shiota, J., additional, Pan, Y., additional, Tomita, K., additional, Takezaki, T., additional, Kuramitsu, Y., additional, Sakai, K., additional, Egashira, S., additional, Ishihara, H., additional, Kuramoto, O., additional, Matsumoto, Y., additional, Maeda, K., additional, and Sakawa, Y., additional

Published
2022
Full Text
View/download PDF

30. Mass-resolved ion measurement by particle counting analysis for characterizing relativistic ion beams driven by lasers

Author

Minami, T., primary, Tokiyasu, A. O., additional, Kohri, H., additional, Abe, Y., additional, Iwasaki, K., additional, Taguchi, T., additional, Oda, K., additional, Suzuki, S., additional, Asai, T., additional, Tanaka, S. J., additional, Isayama, S., additional, Kanasaki, M., additional, Kodaira, S., additional, Fukuda, Y., additional, and Kuramitsu, Y., additional

Published
2022
Full Text
View/download PDF

33. Predictive capability of material screening by fast neutron activation analysis using laser-driven neutron sources

Author

Abe, Y., primary, Nakao, A., additional, Arikawa, Y., additional, Morace, A., additional, Mori, T., additional, Lan, Z., additional, Wei, T., additional, Asano, S., additional, Minami, T., additional, Kuramitsu, Y., additional, Habara, H., additional, Shiraga, H., additional, Fujioka, S., additional, Nakai, M., additional, and Yogo, A., additional

Published
2022
Full Text
View/download PDF

34. 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
Full Text
View/download PDF

38. Simulation of laser-driven, ablated plasma flows in collisionless shock experiments on OMEGA and the NIF

Author

Grosskopf, M.J., Drake, R.P., Kuranz, C.C., Rutter, E.M., Ross, J.S., Kugland, N.L., Plechaty, C., Remington, B.A., Spitkovsky, A., Gargate, L., Gregori, G., Bell, A., Murphy, C.D., Meinecke, J., Reville, B., Sakawa, Y., Kuramitsu, Y., Takabe, H., Froula, D.H., Fiksel, G., Miniati, F., Koenig, M., Ravasio, A., Liang, E., Fu, W., Woolsey, N., and Park, H.-S.

Published
2013
Full Text
View/download PDF

39. Small Angle X-ray Scattering and particle measurements of sub-micron rod-assembly target at SACLA

Author

Sakawa, Youichi, Ota, M., Matsumoto, Y., Rodel, M., Pikuz, T., Pirozhkov, Alexander, Egashira, S., Takumi, Minami, Sakai, K., Ishihara, D., Kuramoto, O., Maeda, K., Abe, Y., Nakamura, H., Morace, A., Matsui, R., Yabuuchi, T., Miyanishi, K., Togashi, T., Inubushi, Y., Sueda, K., Ozaki, N., Kuramitsu, Y., L. Garcia, A., Fukami, K., Kluge, T., Kanasaki, M., Yamauchi, T., Yuji, Fukuda, Kishimoto, Y., Sakawa, Youichi, Ota, M., Matsumoto, Y., Rodel, M., Pikuz, T., Pirozhkov, Alexander, Egashira, S., Takumi, Minami, Sakai, K., Ishihara, D., Kuramoto, O., Maeda, K., Abe, Y., Nakamura, H., Morace, A., Matsui, R., Yabuuchi, T., Miyanishi, K., Togashi, T., Inubushi, Y., Sueda, K., Ozaki, N., Kuramitsu, Y., L. Garcia, A., Fukami, K., Kluge, T., Kanasaki, M., Yamauchi, T., Yuji, Fukuda, and Kishimoto, Y.

Abstract

We conduct SAXS measurement of sub-micron scale highly-ordered silicon-wire assembly targets (wire diameter: 500 nm, distance: 1 um, length: ~10 um, 15x3 array) to reveal temporal evolution of density profiles of 3D structure for the first time., International Conference on High Energy Density Science 2022

Published
2022

40. A multi-stage scintillation counter for GeV-scale multi-species ion spectroscopy in laser-driven particle acceleration experiments

Author

Abe, Y., Kohri, H., Tokiyasu, A., Takumi, Minami, Iwasaki, K., Taguchi, T., Takafumi, Asai, Kanasaki, M., Satoshi, Kodaira, S. Fujioka, Kuramitsu, Y., Yuji, Fukuda, Abe, Y., Kohri, H., Tokiyasu, A., Takumi, Minami, Iwasaki, K., Taguchi, T., Takafumi, Asai, Kanasaki, M., Satoshi, Kodaira, S. Fujioka, Kuramitsu, Y., and Yuji, Fukuda

Abstract

Particle counting analysis (PCA) with multi-stage scintillation detector shows a new perspective on angularly- resolved spectral characterizations of GeV-scale, multi-species ion beams produced by high-power lasers. The diagnosis provides a mass-dependent ion energy spectrum based on time-of-flight and pulse-height analysis of single particle events detected through repetitive experiments. With a novel arrangement of multiple scintil- lators with different ions stopping powers, PCA offers potential advantages over commonly used diagnostics (CR-39, radiochromic films, Thomson parabola etc.) in terms of coverage solid angle, detection efficiency for GeV-ions, and shot-to-shot analysis in high repetition experiments. The basic detector design was tested using a 230-MeV proton beam from the Heavy Ion Medical Accelerator in Chiba (HIMAC), where we demon- strated its ability to discriminate major ion species accelerated in laser-plasma experiments (i.e. protons, deuterons, carbon and oxygen ions) with excellent energy and mass resolution. The proposed diagnostic concept would be essential for better understanding of laser-driven particle acceleration, which paves the way towards all-optical compact accelerators for a range of applications.

Published
2022

41. Studying astrophysical collisionless shocks with counterstreaming plasmas from high power lasers

Author

Park, Hye-Sook, Ryutov, D.D., Ross, J.S., Kugland, N.L., Glenzer, S.H., Plechaty, C., Pollaine, S.M., Remington, B.A., Spitkovsky, A., Gargate, L., Gregori, G., Bell, A., Murphy, C., Sakawa, Y., Kuramitsu, Y., Morita, T., Takabe, H., Froula, D.H., Fiksel, G., Miniati, F., Koenig, M., Ravasio, A., Pelka, A., Liang, E., Woolsey, N., Kuranz, C.C., Drake, R.P., and Grosskopf, M.J.

Published
2012
Full Text
View/download PDF

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

Author

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

Published
2022
Full Text
View/download PDF

44. Development of relativistic ion detector for laser-driven ion acceleration

Author

Kuramitsu, Y., Abe, Y., Kohri, H., Tokiyasu, A., Minami, T., Iwasaki, K., Hihara, T., Taguchi, T., Sakai, K., Himen, K., Nishimoto, T., Takano, M., Habara, H., Kanasaki, M., Nakagawa, T., Oda, K., Yamauchi, T., Isayama, S., Tanaka, S., Yamazaki, R., Jinno, S., Chen, S.H., Liao, Y.T., Woon, W.Y., Fujioka, S., Takafumi, Asai, Kotaro, Kondo, Hiromitsu, Kiriyama, and Yuji, Fukuda

Subjects
Physics::Instrumentation and Detectors, Physics::Plasma Physics, Physics::Accelerator Physics
Abstract

Recent theoretical and numerical studies on laser-driven ion acceleration shows sub- relativistic ion acceleration with multistep acceleration schemes. The multistep acceleration with multiple laser pulses and multiple targets allow us to access the relativistic ion regime with the current and the future laser facilities. However, there is no relativistic ion detectors available in the field of laser ion acceleration. We have been developing energetic ion diagnostics using a combination of solid state nuclear path tracker and Thomson parabola, and scintillator base relativistic ion detectors commonly used in nuclear physics. We introduce our recent progress on the laser driven ion acceleration and the novel diagnostics., 日本物理学会2021年秋季大会

Published
2021

45. Recent progress in x-ray spectral diagnostics of contrast dependent plasma at relativistic intensities of ~10^22 W/cm^2

Author

Pikuz, T., Alkhimova, M., Ryazantsev, S., Yu.Skobelev, I., Pikuz, S., Martynenko, A.S., Sedov, M.V., Shatokhin, A.N., Vishnyakov, E.A., Akito, Sagisaka, Koichi, Ogura, Gonzalez Izquierdo, B., Kotaro, Kondo, Yasuhiro, Miyasaka, Akira, Kon, Masahiko, Ishino, Masaharu, Nishikino, Timur, Esirkepov, Kevin Koga, James, Masaki, Kando, Hiromitsu, Kiriyama, Kiminori, Kondo, Masui, R., Kishimoto, Y., Ota, M., Takafumi, Asai, Kanasaki, M., Jinno, S., Kuramitsu, Y., Kodama, R., Tetsuya, Kawachi, Yuji, Fukuda, Pirozhkov, Alexander, and Sakawa, Y.

Abstract

At PW-class laser facilities pulse intensities of the order of 10^21 – 10^22 W/cm^2 can be reached by focusing high quality laser beams to spots of a few microns size. Under such conditions, during fs- time intervals a huge amount of optical energy is concentrated into a tiny volume and by the interaction with solid targets creates a plasma with high energy density. Such plasma can be sources of non-linear phenomena, among known and predicted by theory there is the acceleration to high energy of protons, ions, electrons and neutrons, generation of HOH and gamma-flare, creation of exotic states of hollow ions and WDM. The observed phenomena are defined by the type of target, laser energy and strongly depend on the prepulse condition. Achieving highly ionized states for elements with medium Z allows to effectively perform x-ray diagnostics of plasma parameters and preplasma conditions by means of high-resolution spectroscopy based on the analysis of spectra of H-like and He-like ions. Here we l present a review on the recent results on application of x-ray spectroscopic diagnostics of plasmas generated in the interaction of J-KAREN-P ultra-high intensity laser pulses with solid and clusters targets under conditions of different intrinsic laser contrast and under the cases of specially incorporated prepulse for controlled preplasma formation. Plasma parameters were evaluated by means of time integrated x-ray spectroscopic measurements and kinetic modeling using the code PrismSPECT. Certain line intensity relations, including the relations (Ly_a / He_b), (Ly_a / Ly_a satellites), relation between Ly_a satellites, as well as broadening and the shape of line, were used as the main tools for evaluation of plasma parameters. Each of the tools has preferred dependences on plasma electron temperature, electron density, electric and magnetic field strength. Four types of experiments are under consideration., 3rd International Conference on Nuclear Photonics NP2020

Published
2021

46. Experimental Observation of Induced Compton Scattered Radiation with J-KAREN P Laser

Author

J. Tanaka, S., Kuramitsu, Y., Yuji, Fukuda, Yamazaki, R., Sakawa, Y., and Yuuji, Fukuda

Subjects
Astrophysics::High Energy Astrophysical Phenomena
Abstract

Induced Compton scattering (ICS) is a nonlinear interaction of photons and electrons and is believed to be one of the important processes constraining physical conditions of some astrophysical phenomena, such as pulsars and also fast radio bursts. It is predicted that, unlike spontaneous Compton scattering, the scattered radiation off ICS shows characteristic spectral signatures and it is shown that the characteristic spectral signature of ICS can be experimentally observed in laboratory by using the up-to-date laser facilities. Here, we report some results of the first experiment of the ICS signature observation. The experimental observation is conducted in December 2020 with J-KAREN-P laser at National Institute for Quantum and Radiological Science and Technology in Japan. We observed the spectra of the incident and scattered radiation and the characteristic spectral signature is expected on the spectra of the scattered radiation. So far, we do not clearly detect the expected signature and we will discuss the obtained results., International Conference on High Energy Density Sciences (HEDS2021)

Published
2021

47. X-ray spectroscopy evidence of solid-density ultra-relativistic laser plasma in renewable micron-scale cryogenic clusters targets

Author

N. Ryazantsev, S., A. Pikuz, T., A. Pikuz, S., Kaji, T., Tanabe, H., Nakagawa, T., Takafumi, Asai, Kanasaki, M., Oda, K., Yamauchi, T., Jinno, S., Taguchi, T., K. Himeno, Iwasaki, K., Hihara, T., Sakai, K., Minami, T., Abe, Y., Tokiyasu, A., Kohri, H., Kuramitsu, Y., Sakawa, Y., Yasuhiro, Miyasaka, Kotaro, Kondo, Akira, Kon, Akito, Sagisaka, Koichi, Ogura, Pirozhkov, Alexander, Masaki, Kando, Kiminori, Kondo, Tetsuya, Kawachi, Hiromitsu, Kiriyama, Yuji, Fukuda, and Yuuji, Fukuda

Abstract

Recently it was shown that injection of gas preliminary cooled down to cryogenic temperatures is a promising way to produce micron-scale clusters. For example, in hydrogen clusters with the size up to ≈2 μm were produced via a conical nozzle at 25 K, 6 MPa. Micron scale clusters can be also created with another pre-cooled gases, for example Ar or Kr, but for other temperature values. So large clusters diameter value becomes comparable with a waist width of a laser beam produced by the J-KAREN-P laser facility. As a result, an experimental case can occur, when most of the laser energy is absorbed in a single cluster. Such situation can be considered as an interaction of a laser pulse with matter, state of which is close to solid-state. In the presentation plasma X-ray spectra features indicating the described case of high-intensity laser and large-scale-cluster interaction are discussed. They were observed experimentally during irradiation of cryogenic (T = 140 K – 220 K) Ar flows by ultra-intensive (I = 10^22 W/cm^2) femtosecond laser pulses generated by the J-KAREN-P laser. Registered X-ray spectra of produced plasma contains Ar XVIII Ly-α and Ar XVII He-α of comparable intensities. It should be noted that the Ar XVIII Ly-α line has been for the first time observed in laser-matter interaction experiments. It indicates that the density of irradiated matter is high enough to provide a rate of impact ionization process, which is sufficient to create a significant amount of H-like Ar ions. It is a challenge to reach such condition for a pure gas or small clusters. Thus, the observed spectra are considered as an evidence of a large micron cluster existing in the beam waist region., International Conference on High Energy Density Sciences (HEDS2021)

Published
2021

49. Recent progress of laboratory astrophysics with intense lasers

Author

Takabe, H., Kuramitsu, Y., Takabe, H., and Kuramitsu, Y.

Abstract

Thanks to a rapid progress of high-power lasers since the birth of laser by T. H. Maiman in 1960, intense lasers have been developed mainly for studying the scientific feasibility of laser fusion. Inertial confinement fusion with an intense laser has attracted attention as a new future energy source after two oil crises in the 1970s and 1980s. From the beginning, the most challenging physics is known to be the hydrodynamic instability to realize the spherical implosion to achieve more than 1000 times the solid density. Many studies have been performed theoretically and experimentally on the hydrodynamic instability and resultant turbulent mixing of compressible fluids. During such activities in the laboratory, the explosion of supernova SN1987A was observed in the sky on 23 February 1987. The X-ray satellites have revealed that the hydrodynamic instability is a key issue to understand the physics of supernova explosion. After collaboration between laser plasma researchers and astrophysicists, the laboratory astrophysics with intense lasers was proposed and promoted around the end of the 1990s. The original subject was mainly related to hydrodynamic instabilities. However, after two decades of laboratory astrophysics research, we can now find a diversity of research topics. It has been demonstrated theoretically and experimentally that a variety of nonlinear physics of collisionless plasmas can be studied in laser ablation plasmas in the last decade. In the present paper, we shed light on the recent 10 topics studied intensively in laboratory experiments. A brief review is given by citing recent papers. Then, modeling cosmic-ray acceleration with lasers is reviewed in a following session as a special topic to be the future main topic in laboratory astrophysics research.

Published
2021

50. Generation of scaled protogalactic seed magnetic fields in laser-produced shock waves

Author

Gregori, G., Ravasio, A., Murphy, C.D., Schaar, K., Baird, A., Bell, A.R., Benuzzi-Mounaix, A., Bingham, R., Constantin, C., Drake, R.P., Edwards, M., Everson, E.T., Gregory, C.D., Kuramitsu, Y., Lau, W., Mithen, J., Niemann, C., Park, H.-S., Remington, B.A., Reville, B., Robinson, A.P.L., Ryutov, D.D., Sakawa, Y., Yang, S., Woolsey, N.C., and Miniati, M. Koenig F.

Subjects
Shock waves -- Properties, Galaxies -- Magnetic properties -- Models, Magnetic fields -- Origin -- Models, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The standard model for the origin of galactic magnetic fields is through the amplification of seed fields via dynamo or turbulent processes to the level consistent with present observations (1-3). Although other mechanisms may also operate (4,5), currents from misaligned pressure and temperature gradients (the Biermann battery process) inevitably accompany the formation of galaxies in the absence of a primordial field. Driven by geometrical asymmetries in shocks (6) associated with the collapse of protogalactic structures, the Biermann battery is believed to generate tiny seed fields to a level of about [10.sup.-21] gauss (refs 7, 8). With the advent of high-power laser systems in the past two decades, a new area of research has opened in which, using simple scaling relations (9,10), astrophysical environments can effectively be reproduced in the laboratory (11,12). Here we report the results of an experiment that produced seed magnetic fields by the Biermann battery effect. We show that these results can be scaled to the intergalactic medium, where turbulence, acting on timescales of around 700 million years, can amplify the seed fields (13,14) sufficiently to affect galaxy evolution., We conducted these experiments at the Laboratoire pour l'Utilisation de Lasers Intenses (LULI 2000) laser facility. The intense laser was used to illuminate a small carbon rod inside a low-pressure [...]

Published
2012
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results