Your search keyword '"Kotaro Kondo"' showing total 61 results

1. Development of carbon thin film for Laser‐driven heavy ion acceleration using a XeCl excimer laser

Author

Hironao Sakaki, Mitsuhiro Kusaba, Fumitaka Nigo, Mamiko Nishiuchi, Hiromitsu Kiriyama, Kotaro Kondo, Shuji Sakabe, and Masaki Hashida

Subjects

Materials science, Excimer laser, Computer Networks and Communications, business.industry, Applied Mathematics, medicine.medical_treatment, General Physics and Astronomy, chemistry.chemical_element, Laser, law.invention, Acceleration, chemistry, law, Signal Processing, medicine, Optoelectronics, Heavy ion, Electrical and Electronic Engineering, Thin film, business, Carbon, Polyimide

Published

2020

2. Development of Carbon Thin Film for Laser-driven Heavy Ion Acceleration Using a XeCl Excimer Laser

Author

Masaki Hashida, Hiromitsu Kiriyama, Kotaro Kondo, Shuji Sakabe, Mamiko Nishiuchi, Mitsuhiro Kusaba, Fumitaka Nigo, and Hironao Sakaki

Subjects

Materials science, Excimer laser, business.industry, medicine.medical_treatment, chemistry.chemical_element, Laser, law.invention, Acceleration, chemistry, law, medicine, Optoelectronics, Heavy ion, Electrical and Electronic Engineering, Thin film, business, Carbon

Published

2020

3. Highly stable sub-nanosecond Nd:YAG pump laser for optically synchronized optical parametric chirped-pulse amplification

Author

Kotaro Kondo, Maki Kishimoto, Masaki Kando, Michiaki Mori, Yasuhiro Miyasaka, and Hiromitsu Kiriyama

Subjects

Chirped pulse amplification, Materials science, business.industry, Pulse duration, Laser pumping, Nanosecond, Laser, Atomic and Molecular Physics, and Optics, Pulse (physics), law.invention, Optics, Regenerative amplification, law, business, Photonic-crystal fiber

Abstract

We developed an optically synchronized highly stable frequency-doubled Nd:YAG laser with sub-nanosecond pulse duration. The 1064 nm seed pulses generated by soliton self-frequency shift in a photonic crystal fiber from Ti:sapphire oscillator pulses were stabilized by controlling input pulse polarization. The seed pulses were amplified to 200 mJ by diode-pumped amplifiers with a high stability of only

Published

2021

4. Graphene under extreme electromagnetic field: energetic ion acceleration by direct irradiation of ultra intense laser on few layer suspended graphene

Author

Ryosuke Kodama, Yuji Fukuda, Kotaro Kondo, Kentaro Sakai, Alessio Morace, Shogo Isayama, Hiromitsu Kiriyama, Yu-Tzu Liao, Nigel Woolsey, Hideaki Habara, S. Egashira, Shi-Ming He, Yao-Li Liu, Takamasa Hihara, Kuan-Ting Wu, Leonard N. K. Döhl, Shih Hung Chen, Takafumi Asai, T Minami, Yasuhiro Kuramitsu, Keiji Oda, Masato Kanasaki, Ching Yuan Su, Michel Koenig, Tomoya Yamauchi, Wei Yen Woon, Takahiro Nishimoto, M. Ota, and Youichi Sakawa

Subjects

Electromagnetic field, Materials science, Graphene, law, business.industry, Optoelectronics, Irradiation, Ion acceleration, Laser, business, Layer (electronics), law.invention

Abstract

Atomically thin graphene is a transparent, highly electrically and thermally conductive, light-weight, and the strongest material. To date, graphene has found applications in many aspects including transport, medicine, electronics, energy, defense, and desalination. We demonstrate another disruptive application of graphene in the field of laser-ion acceleration, in which the unique features of graphene play indispensable role. Laser driven ion sources have been widely investigated for pure science, plasma diagnostics, medical and engineering applications. Recent developments of laser technologies allow us to access radiation regime of laser ion acceleration with relatively thin targets. However, the thinner target is the less durable and can be easily broken by the pedestal or prepulse through impact and heating prior to the main laser arrival. One of the solutions to avoid this is plasma mirror, which is a surface plasma created by the foot of the laser pulse on an optically transparent material working as an effective mirror only for the main laser peak. So far diamond like carbon (DLC) is used to explore the ion acceleration in extremely thin target regime (< 10 nm) with plasma mirrors, and it is necessary to use plasma mirrors even in moderately thin target regime (10-100 nm) to realize energetic ion generation. However, firstly DLC is not 2D material, and therefore, it is very expensive to make it thin and flat. Moreover, graphene is stronger than diamond at extremely thin regime, and much more reasonable for mass-production. Furthermore, installing and operating plasma mirrors at high repetition rate is also costly. Here we show another direct solution using graphene as the thinnest and strongest target ever made. We develop a facile transfer method to fabricate large-area suspended graphene (LSG) as target for laser ion acceleration with precision down to a single atomic layer. Direct irradiation of the LSG targets with an ultra intense laser generates energetic carbons and protons evidently showing the durability of graphene without plasma mirror. This extends the new frontier of science on graphene under extreme electromagnetic field, such as energy frontier and nuclear fusion.

Published

2021

5. Enhancement of pre-pulse and picosecond pedestal contrast of the petawatt J-KAREN-P laser

Author

Yasuhiro Miyasaka, Alexander S. Pirozhkov, H. Sasao, Mamiko Nishiuchi, Hiromitsu Kiriyama, Kotaro Kondo, Akira Kon, Masaki Kando, Koichi Ogura, Akito Sagisaka, Yuji Fukuda, and Nicholas P. Dover

Subjects

Orders of magnitude (power), Chirped pulse amplification, Nuclear and High Energy Physics, Materials science, business.industry, media_common.quotation_subject, Laser, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Pulse (physics), law.invention, Optics, Pedestal, Nuclear Energy and Engineering, law, Picosecond, Temporal contrast, Contrast (vision), business, media_common

Abstract

We have experimentally improved the temporal contrast of the petawatt J-KAREN-P laser facility. We have investigated how the generation of pre-pulses by post-pulses changes due to the temporal overlap between the stretched pulse and the post-pulse in a chirped-pulse amplification system. We have shown that the time at which the pre-pulse is generated by the post-pulse and its shape are related to the time difference between the stretched main pulse and the post-pulse. With this investigation, we have found and identified the origins of the pre-pulses and have demonstrated the removal of most pre-pulses by eliminating the post-pulse with wedged optics. We have also demonstrated the impact of stretcher optics on the picosecond pedestal. We have realized orders of magnitude enhancement of the pedestal by improving the optical quality of a key component in the stretcher.

Published

2021

6. Improvement of the temporal contrast of pre-pulses by post-pulses in a petawatt J-KAREN-P laser facility

Author

Yasuhiro Miyasaka, Karl Zeil, Kiminori Kondo, Kotaro Kondo, Mamiko Nishiuchi, Stefan Bock, Masaki Kando, Tim Ziegler, Nicholas P. Dover, Akito Sagisaka, Yuji Fukuda, Tomas Puschel, Hiromitsu Kiriyama, Ulrich Schramm, Akira Kon, Koichi Ogura, and Alexander S. Pirozhkov

Subjects

Materials science, Optics, law, business.industry, Temporal contrast, Laser, business, Fresnel diffraction, Laser beams, law.invention

Abstract

We demonstrate the removal of the pre-pulses based on the exploration of the generation of pre-pulses by post-pulses through the nonlinear process associated with the B-integral in the laser chain of the petawatt facility J-KAREN-P.

Published

2021

7. Petawatt Femtosecond Laser Pulses from Titanium-Doped Sapphire Crystal

Author

Ulrich Schramm, Tim Ziegler, Mamiko Nishiuchi, Masaki Kando, Kiminori Kondo, Alexander S. Pirozhkov, Koichi Ogura, Kotaro Kondo, Akito Sagisaka, Karl Zeil, Yasuhiro Miyasaka, Kai Huang, Thomas Püschel, Nobuhiko Nakanii, Stefan Bock, Timur Zh. Esirkepov, Yuji Fukuda, James K. Koga, Hironao Sakaki, Akira Kon, Nicholas P. Dover, and Hiromitsu Kiriyama

Subjects

Chirped pulse amplification, Materials science, Photon, ultra-fast laser, General Chemical Engineering, Physics::Optics, Ti:sapphire laser, 01 natural sciences, law.invention, 010309 optics, Inorganic Chemistry, law, 0103 physical sciences, lcsh:QD901-999, General Materials Science, 010306 general physics, chirped-pulse amplification, ultra-high intensity laser, business.industry, Condensed Matter Physics, Laser, Charged particle, Femtosecond, Sapphire, Optoelectronics, Laser beam quality, lcsh:Crystallography, high field science, business

Abstract

Ultra-high intensity femtosecond lasers have now become excellent scientific tools for the study of extreme material states in small-scale laboratory settings. The invention of chirped-pulse amplification (CPA) combined with titanium-doped sapphire (Ti:sapphire) crystals have enabled realization of such lasers. The pursuit of ultra-high intensity science and applications is driving worldwide development of new capabilities. A petawatt (PW = 1015 W), femtosecond (fs = 10&minus, 15 s), repetitive (0.1 Hz), high beam quality J-KAREN-P (Japan Kansai Advanced Relativistic ENgineering Petawatt) Ti:sapphire CPA laser has been recently constructed and used for accelerating charged particles (ions and electrons) and generating coherent and incoherent ultra-short-pulse, high-energy photon (X-ray) radiation. Ultra-high intensities of 1022 W/cm2 with high temporal contrast of 10&minus, 12 and a minimal number of pre-pulses on target has been demonstrated with the J-KAREN-P laser. Here, worldwide ultra-high intensity laser development is summarized, the output performance and spatiotemporal quality improvement of the J-KAREN-P laser are described, and some experimental results are briefly introduced.

Published

2020

8. Pump phase-locking to fiber-transmitted QPSK phase-conjugated twin waves for non-degenerate phase-sensitive amplifier repeaters

Author

Kotaro Kondo, Atsushi Takada, Takushi Kazama, Ryoichi Kasahara, Takumi Okabe, Takeshi Umeki, Yasuhiro Okamura, Akihide Sano, and Masashi Abe

Subjects

Physics, Optics, Phase sensitive, business.industry, Amplifier, Degenerate energy levels, Phase (waves), Fiber, Conjugated system, business, Phase locking, Phase-shift keying

Published

2017

9. Denoising application for electron spectrometer in laser-driven ion acceleration using a Simulation-supervised Learning based CDAE

Author

Kotaro Kondo, Mamiko Nishiuchi, Nicholas P. Dover, Masaki Kando, Kiminori Kondo, Hazel Lowe, Yukinobu Watanabe, H. Sakaki, Tatsuhiko Miyatake, Keiichiro Shiokawa, and Akira Kon

Subjects

Physics, Nuclear and High Energy Physics, Electron spectrometer, Artificial neural network, Noise (signal processing), business.industry, Noise reduction, Supervised learning, 01 natural sciences, 010305 fluids & plasmas, Background noise, 0103 physical sciences, Virtual training, Computer vision, Artificial intelligence, 010306 general physics, business, Instrumentation, Energy (signal processing)

Abstract

Real experimental measurements in high-radiation environments often suffer from a high-flux of background noise which can limit the retrieval of the underlying signal. It is important to have an effective method to properly remove unwanted noise from measurement images. Machine learning methods using a multilayer neural network (deep learning) have been shown to be effective for extracting features from images. However, the efficacy of such methods is often restricted by a lack of high-quality training data. Here, we demonstrate the application for noise removal by performing simulations to generate virtual training data for a denoising deep-learning model. We first apply the model to simulations of an electron spectrometer measuring the energy spectra of electron beams accelerated from the interaction of an intense laser with a thin foil. By considering the chi-squared test and image test-indexes, namely the peak signal-to-noise ratio (PSNR) and structural similarity index measure (SSIM), we found our method to be highly effective. We then used the trained model to denoise real experimental measurements of the electron beam spectra from experiments performed at a state-of-the-art high-power laser facility. This application is offered as a new method for effectively removing noise from experimental data in high-flux radiation background environment.

Published

2021

10. Demonstration of repetitive energetic proton generation by ultra-intense laser interaction with a tape target

Author

Masayasu Hata, James K. Koga, Nicholas P. Dover, A. Ya. Faenov, G. Hicks, Alexander S. Pirozhkov, Mamiko Nishiuchi, Yasuhiko Sentoku, T. A. Pikuz, Ko. Kondo, Masaki Kando, E. J. Ditter, H. Sakaki, Akito Sagisaka, O. C. Ettlinger, Yukinobu Watanabe, T. Miyahara, Hiromitsu Kiriyama, M. A. Alkhimova, Kotaro Kondo, Zulfikar Najmudin, Tim Ziegler, Ulrich Schramm, N. Iwata, Karl Zeil, and Hazel Lowe

Subjects

Nuclear and High Energy Physics, Radiation, Materials science, Proton, business.industry, Laser, 01 natural sciences, 010305 fluids & plasmas, Ion, Power (physics), law.invention, Acceleration, Optics, law, 0103 physical sciences, Irradiation, 010306 general physics, business, Scaling, Energy (signal processing)

Abstract

High power laser systems are an attractive driver for compact energetic ion sources. We demonstrate repetitive acceleration at 0.1 Hz of proton beams up to 40 MeV from a reeled tape target irradiated by ultra-high intensities up to 5 × 1021 Wcm − 2 and laser energies ≈ 15 J using the J-KAREN-P laser system. We investigate the stability of the source and its behaviour with laser spot focal size. We compare the scaling of proton energy with laser energy to a recently developed analytical model, and also demonstrate that it is possible to reach energies up to 50 MeV on a single shot with a lower laser energy ≈ 10 J by using a thinner target, motivating development of high repetition targetry suitable for thinner targets.

Published

2020

11. High-Intensity Laser-Driven Oxygen Source from CW Laser-Heated Titanium Tape Targets

Author

Kotaro Kondo, Hazel Lowe, Tim Ziegler, Zulfikar Najmudin, Karl Zeil, Nicholas P. Dover, Mamiko Nishiuchi, Kiminori Kondo, Masaki Kando, G. Hicks, O. C. Ettlinger, Hiromitsu Kiriyama, Yukinobu Watanabe, Ulrich Schramm, Hironao Sakaki, Emma Ditter, and T. Miyahara

Subjects

Materials science, Proton, General Chemical Engineering, chemistry.chemical_element, 01 natural sciences, Oxygen, 010305 fluids & plasmas, law.invention, Inorganic Chemistry, Acceleration, law, 0103 physical sciences, lcsh:QD901-999, General Materials Science, high-power laser, laser-driven heavy ion acceleration, 010306 general physics, CW laser heating, 0306 Physical Chemistry (incl. Structural), oxygen ion source, business.industry, Ti:sapphire laser, surface treatment, Condensed Matter Physics, Laser, Ti Sapphire laser, chemistry, Optoelectronics, lcsh:Crystallography, business, Layer (electronics), Intensity (heat transfer), Titanium

Abstract

The interaction of high-intensity laser pulses with solid targets can be used as a highly charged, energetic heavy ion source. Normally, intrinsic contaminants on the target surface suppress the performance of heavy ion acceleration from a high-intensity laser&ndash, target interaction, resulting in preferential proton acceleration. Here, we demonstrate that CW laser heating of 5 &micro, m titanium tape targets can remove contaminant hydrocarbons in order to expose a thin oxide layer on the metal surface, ideal for the generation of energetic oxygen beams. This is demonstrated by irradiating the heated targets with a PW class high-power laser at an intensity of 5 &times, 1021 W/cm2, showing enhanced acceleration of oxygen ions with a non-thermal-like distribution. Our new scheme using a CW laser-heated Ti tape target is promising for use as a moderate repetition energetic oxygen ion source for future applications.

Published

2020

12. High-Thermal-Conductivity SiC Ceramic Mirror for High-Average-Power Laser System

Author

Hiromitsu Kiriyama, Kotaro Kondo, and Yasuhiro Miyasaka

Subjects

Materials science, General Chemical Engineering, 02 engineering and technology, Substrate (electronics), 01 natural sciences, law.invention, 010309 optics, Inorganic Chemistry, chemistry.chemical_compound, Thermal conductivity, law, 0103 physical sciences, lcsh:QD901-999, Silicon carbide, thermal conductivity, General Materials Science, Ceramic, high-average-power laser, silicon carbide ceramics, Laser diode, business.industry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Laser, optics, Temperature gradient, chemistry, visual_art, visual_art.visual_art_medium, Optoelectronics, sense organs, lcsh:Crystallography, Laser beam quality, 0210 nano-technology, business

Abstract

The importance of heat-resistant optics is increasing together with the average power of high-intensity lasers. A silicon carbide (SiC) ceramic with high thermal conductivity is proposed as an optics substrate to suppress thermal effects. The temperature rise of the substrate and the change in the surface accuracy of the mirror surface, which degrades the laser beam quality, are investigated. Gold mirrors on synthetic fused silica and SiC ceramic substrates are heated with a 532 nm wavelength laser diode. The synthetic fused silica substrate placed on an aluminum block shows a temperature increase by ~32 &deg, C and a large temperature gradient. In contrast, the SiC ceramic substrate shows a uniform temperature distribution and a temperature increase of only ~4 &deg, C with an absorbed power of ~2 W after 20 min laser irradiation. The surface accuracy (roughness) when using the synthetic fused silica substrate changes from /21.8 (29.0 nm) to /7.2 (88.0 nm), increasing by a factor of ~3.0. However, that of the SiC ceramic substrate changes from /21.0 (30.2 nm) to /13.3 (47.7 nm), increasing by only a factor of ~1.6. Based on these experimental results, detailed considerations and calculations of actively cooled SiC ceramic substrates for high-average-power laser systems are also discussed.

Published

2020

13. Status and progress of the J-KAREN-P high intensity laser system at QST

Author

Akito Sagisaka, Yasuhiro Miyasaka, Kai Huang, Nobuhiko Nakanii, Hiromitsu Kiriyama, Hazel Lowe, Hironao Sakaki, Akira Kon, Alexander S. Pirozhkov, Koichi Ogura, Mamiko Nishiuchi, Kotaro Kondo, Nicholas P. Dover, Masaki Kando, Kiminori Kondo, Yuji Fukuda, Timur Zh. Esirkepov, and James K. Koga

Subjects

Nuclear and High Energy Physics, Radiation, Materials science, business.industry, Preamplifier, Parabolic reflector, Physics::Optics, Laser, 01 natural sciences, 010305 fluids & plasmas, Pulse (physics), law.invention, Optics, law, 0103 physical sciences, Femtosecond, Sapphire, Temporal contrast, 010306 general physics, business, Adaptive optics

Abstract

We report on femtosecond petawatt laser pulses at 0.1 Hz that combine both Ti:sapphire chirped-pulse amplification (CPA) and optical parametric CPA (OPCPA) techniques. High temporal contrast of 1012 prior to the main pulse of 10 J output energy has been demonstrated with a cleaned high-energy seeded low gain OPCPA preamplifier. Intensities as high as 1022 W∕cm2 on target have been achieved by focusing a wave-front corrected 0.3 PW laser by adaptive optics and reflective-type optics with an f ∕1.3 off-axis parabolic mirror. We describe the origins of the pre-pulses generated by the post-pulses through non-linear processes and demonstrate the removal of the pre-pulses by switching to optical components with a small wedge angle at our petawatt laser facility. We also briefly introduce some experimental results. Exploration of new regimes in high field science is now possible with the unprecedented laser intensity levels of the J-KAREN-P laser.

Published

2020

14. High-contrast high-intensity repetitive petawatt laser

Author

Kotaro Kondo, Kiminori Kondo, James K. Koga, Hiromitsu Kiriyama, Akito Sagisaka, Alexander S. Pirozhkov, Yasuhiro Miyasaka, Hironao Sakaki, Koichi Ogura, Timur Zh. Esirkepov, Michiaki Mori, Nicholas P. Dover, Mamiko Nishiuchi, Masaki Kando, and Yuji Fukuda

Subjects

Materials science, business.industry, Parabolic reflector, Laser, 01 natural sciences, Atomic and Molecular Physics, and Optics, law.invention, Power (physics), Pulse (physics), 010309 optics, Optics, law, Pulse compression, 0103 physical sciences, Sapphire, 010306 general physics, business, Adaptive optics, Energy (signal processing)

Abstract

We report the generation of 63 J of broadband pulse energies at 0.1 Hz from the J-KAREN-P laser, which is based on an OPCPA/Ti:sapphire hybrid architecture. Pulse compression down to 30 fs indicates a peak power of over 1 PW. High temporal contrast of 1012 prior to the main pulse has been demonstrated with 10 J output energy. High intensities of 1022 W/cm2 on target by focusing a 0.3 PW laser with an f/1.3 off-axis parabolic mirror have been achieved. Fundamental processes of laser matter interaction at over 1022 W/cm2 intensities belong to a new branch of science that will be the principal research task of our infrastructure.

Published

2018

15. Whispering gallery effect in relativistic optics

Author

S. Gus’kov, Yuki Abe, S. Lee, Yasunobu Arikawa, Vladimir Tikhonchuk, Sadaoki Kojima, Kotaro Kondo, Ph. Korneev, King Fai Farley Law, Mitsuo Nakai, Atsushi Sunahara, Shinsuke Fujioka, Joao Santos, Kazuki Matsuo, Akifumi Yogo, A. Oshima, Shohei Sakata, Alessio Morace, Takayoshi Norimatsu, and Emmanuel d'Humières

Subjects

Physics, Physics and Astronomy (miscellaneous), Solid-state physics, business.industry, Scattering, Whispering gallery, FOS: Physical sciences, Physics::Optics, Plasma, Laser, 01 natural sciences, Physics - Plasma Physics, 010305 fluids & plasmas, Intensity (physics), Pulse (physics), law.invention, Plasma Physics (physics.plasm-ph), Coupling (physics), Optics, law, 0103 physical sciences, 010306 general physics, business

Abstract

A relativistic laser pulse, confined in a cylindrical-like target, under specific conditions may perform multiple scattering along the internal target surface. This results in the confinement of the laser light, leading to a very efficient interaction. The demonstrated propagation of the laser pulse along the curved surface is just yet another example of the “whispering gallery” effect, although nonideal due to laser–plasma coupling. In the relativistic domain its important feature is a gradual intensity decrease, leading to changes in the interaction conditions. The process may pronounce itself in plenty of physical phenomena, including very efficient electron acceleration and generation of relativistic magnetized plasma structures.

Published

2018

16. The Observation of Transient Thin Film Structures During the Femto-Second Laser Ablation Process by Using the Soft X-Ray Laser Probe

Author

Nail Inogamov, Kotaro Kondo, Noboru Hasegawa, A. M. Ito, Naofumi Ohnishi, A. Ya. Faenov, Masaharu Nishikino, T. Suemoto, Motoyoshi Baba, Yasuo Minami, Masahiko Ishino, and Tetsuya Kawachi

Subjects

Materials science, genetic structures, business.industry, medicine.medical_treatment, Nanotechnology, Surface finish, Ablation, Laser, eye diseases, law.invention, Interferometry, Optics, law, medicine, Sapphire, sense organs, Thin film, business, Nanoscopic scale, Beam splitter

Abstract

We modified a soft X-ray laser (SXRL) interferometer synchronized with a Ti:sapphire laser to observe a single-shot image of the nanoscale structure dynamics of materials induced by an optical laser pulse. The lateral resolution on the sample surface was improved to 0.7 μm using precise imaging optics. Using this system, we succeeded in observing thin film structures above the solid (or liquid) surface in the femtosecond laser ablation process of metals (Au). The thin film worked as soft X-ray beam splitter. This result shows a thin film was smooth and dense (with a roughness of a few nanometers and near sold density). Furthermore, it gave rise to the possibility of generating novel transient soft X-ray optics .

Published

2018

17. Pump phase-locking to phase-conjugated twin waves with heterodyne OPLL assisted by sum-frequency and second harmonic generation for ND-PSAs

Author

Masafumi Koga, Atsushi Takada, Yasuhiro Okamura, Kotaro Kondo, and Takumi Okabe

Subjects

Optical amplifier, Materials science, Offset (computer science), Optical fiber, business.industry, Physics::Optics, Second-harmonic generation, Phase locking, law.invention, Optical pumping, Optics, law, Stimulated emission, business, Phase-shift keying

Abstract

Heterodyne optical phase-locked loop assisted by sum-frequency and second-harmonic generation for non-degenerate phase-sensitive optical amplifier repeaters is proposed. Experiment of offset pump phase-locking to 5-Gbit/s BPSK phase-conjugated twin waves is successfully achieved by our method.

Published

2017

18. High contrast high intensity petawatt J-KAREN-P laser facility at QST

Author

K. Nishitani, Hironao Sakaki, T. Miyahara, Tatiana Pikuz, Nicholas P. Dover, James K. Koga, Hiromitsu Kiriyama, Kotaro Kondo, Koichi Ogura, Mamiko Nishiuchi, Alexander S. Pirozhkov, Sergei V. Bulanov, Masaki Kando, Anatoly Ya. Faenov, Akito Sagisaka, Yuji Fukuda, M. A. Alkhimova, Yukinobu Watanabe, and Kiminori Kondo

Subjects

010302 applied physics, Physics, Proton, business.industry, Pulse duration, Electron, Injector, Laser, 01 natural sciences, law.invention, Relativistic particle, Acceleration, Optics, Beamline, law, 0103 physical sciences, 010306 general physics, business

Abstract

We report on the J-KAREN-P laser facility at QST, which can provide PW peak power at 0.1 Hz on target. The system can deliver short pulses with an energy of 30 J and pulse duration of 30 fs after compression with a contrast level of better than 1012. Such performance in high field science will give rise to the birth of new applications and breakthroughs, which include relativistic particle acceleration, bright x-ray source generation, and nuclear activation. The current achieved laser intensity on target is up to > 9x1021 Wcm-2 with an energy of ~9 J on target. The interaction with a 3 to 5- μm stainless steel tape target provides us electrons with a typical temperature of more than 10 MeV and energetic proton beams with typical maximum energies of > 40 MeV with good reproducibility. The protons are accelerated in the Target Normal Sheath Acceleration regime, which is suitable for many applications including as an injector into a beamline for medical use, which is one of our objectives.

Published

2017

19. Laser ablation ion source for heavy ion inertial fusion

Author

Kazumasa Takahashi, Kotaro Kondo, Masahiro Okamura, Megumi Sekine, and Takeshi Kanesue

Subjects

Physics, Nuclear and High Energy Physics, Fusion, Laser ablation, business.industry, Inertial fusion power plant, Particle accelerator, Laser, Computer Science::Digital Libraries, Ion source, law.invention, Front and back ends, Optics, Physics::Plasma Physics, law, Physics::Accelerator Physics, Radio frequency, Atomic physics, business, Instrumentation

Abstract

Laser ion source (LIS) is one of the promising candidates for the front end of heavy ion inertial fusion power plant. A LIS can provide low emittance high current heavy ion beams. Based on the performance of an existing LIS, the feasibilities of the ion source of heavy ion inertial fusion plant are investigated assuming both induction accelerator scheme and radio frequency (RF) accelerator scheme. By combining recently developed techniques, we can design LIS both for the induction and RF accelerator schemes.

Published

2014

20. Ion beam focusing with cone optics for WDM experiments

Author

Yoshiyuki Oguri, Kazuhiko Horioka, Kotaro Kondo, and Jun Hasegawa

Subjects

Physics, Nuclear and High Energy Physics, Ion beam, business.industry, Scattering, Monte Carlo method, Physics::Optics, Warm dense matter, Curvature, Optics, Cone (topology), Physics::Accelerator Physics, business, Instrumentation, Intensity (heat transfer), Beam (structure)

Abstract

Beam focusing properties of cone optics were systematically investigated by Monte Carlo simulations under various combinations of beam and cone parameters. To optimize the cone optic design for accelerator-driven WDM experiments, the beam intensity gains after cone focusing were evaluated from the simulation results as functions of cone wall material and shape parameters such as taper angle and wall curvature. The uniformity of the cone-focused beam was also examined by considering not only various cone parameters but also the cases involving the misalignment of the cone optic. From the results, a parabolic gold cone was found to be the best choice at least for relatively light ions such as lithium having MeV energies. It is also found that although smaller taper angle improves the total beam transport efficiency in the optic, it brings more difficulties in the alignment of the optic because the alignment accuracy should be less than a half of the taper angle to obtain acceptable uniformity in the beam energy deposition on the target.

Published

2014

21. Optical pump phase locking to a carrier wave extracted from phase-conjugated twin waves for phase-sensitive optical amplifier repeaters

Author

Atsushi Takada, Kotaro Kondo, Yasuhiro Okamura, Takeshi Umeki, Takushi Kazama, Masafumi Koga, Yuya Ohmichi, and Masashi Abe

Subjects

Optical amplifier, Signal processing, Materials science, Sum-frequency generation, Optical fiber, business.industry, Amplifier, Phase (waves), 02 engineering and technology, 01 natural sciences, Optical parametric amplifier, Atomic and Molecular Physics, and Optics, law.invention, 010309 optics, Optical pumping, 020210 optoelectronics & photonics, Optics, law, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, business

Abstract

In this paper, an optical phase-locked loop assisted by sum-frequency and second-harmonic generation (SS-OPLL) for frequency nondegenerate optical parametric phase-sensitive amplifier repeaters is experimentally demonstrated. First, theoretical derivations show that carrier extraction from phase-conjugated twin waves (PCTWs) and reference light generation are achieved by sum-frequency generation; therefore, the SS-OPLL circuit enables optical phase locking between PCTWs and a pump wave by a simple architecture based on a balanced OPLL. Then, optical phase locking between 20-Gbit/s quadrature phase-shift keying PCTWs and an individual pump source is experimentally demonstrated. Experimental results indicate that phase errors were reduced during the SS-OPLL operation.

Published

2016

22. First demonstration of non-degenerate phasesensitive amplification with pump light recovered by optical phase-locked loop

Author

Takushi Kazama, Yasuhiro Okamura, Atsushi Takada, Masashi Abe, Yuya Ohmichi, Takeshi Umeki, Masafumi Koga, and Kotaro Kondo

Subjects

Physics, Optical amplifier, business.industry, Degenerate energy levels, Nonlinear optics, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Optical parametric amplifier, 010309 optics, Phase-locked loop, Optical pumping, Optics, 0103 physical sciences, Phase noise, Stimulated emission, 0210 nano-technology, business

Abstract

ND-PSA with a pump light recovered by an OPLL circuit is experimentally demonstrated for the first time. The ND-PSA with recovered pump amplifies 20-Gbit/s QPSK-PCTWs and results in 19.1-dB Q-factor even though optical phase noise is loaded to the input PCTWs.

Published

2016

23. Iron plasma generation using a Nd:YAG laser pulse of several hundred picoseconds

Author

Masahiro Okamura, Kotaro Kondo, M. Kumaki, Jun Tamura, and Takeshi Kanesue

Subjects

Materials science, Physics::Optics, Faraday cup, 02 engineering and technology, Laser pumping, 01 natural sciences, law.invention, X-ray laser, symbols.namesake, Optics, Physics::Plasma Physics, law, 0103 physical sciences, Ultrafast laser spectroscopy, Physics::Atomic Physics, Laser power scaling, Instrumentation, 010302 applied physics, business.industry, Far-infrared laser, 021001 nanoscience & nanotechnology, Laser, Nd:YAG laser, symbols, Atomic physics, 0210 nano-technology, business

Abstract

We investigated the high intensity plasma generated by using a Nd:YAG laser to apply a laser-produced plasma to the direct plasma injection scheme. The capability of the source to generate high charge state ions strongly depends on the power density of the laser irradiation. Therefore, we focused on using a higher power laser with several hundred picoseconds of pulse width. The iron target was irradiated with the pulsed laser, and the ion current of the laser-produced iron plasma was measured using a Faraday cup and the charge state distribution was investigated using an electrostatic ion analyzer. We found that higher charge state iron ions (up to Fe(21+)) were obtained using a laser pulse of several hundred picoseconds in comparison to those obtained using a laser pulse of several nanoseconds (up to Fe(19+)). We also found that when the laser irradiation area was relatively large, the laser power was absorbed mainly by the contamination on the target surface.

Published

2016

24. Frequency Nondegenerate Optical Parametric Phase-sensitive Amplifier Repeater by Using Recovered Pump Carrier Generated from Phase-conjugated Twin Waves

Author

Shingo Seki, Masafumi Koga, Kotaro Kondo, Yuya Ohmichi, Atsushi Takada, and Yasuhiro Okamura

Subjects

Optical amplifier, Repeater, Physics, business.industry, Amplifier, Phase (waves), 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Optical parametric amplifier, 010309 optics, Optical pumping, Optics, 0103 physical sciences, 0210 nano-technology, business, Phase modulation, Optical communications repeater

Abstract

ND-PSA repeaters using recovered pump generated from PCTWs is proposed. Calculations show proposed repeaters enables over 76-span transmission of 20-Gbit/s QPSK PCTWs, and phase-synchronization using sum frequency light from BPSK PCTWs is experimentally demonstrated.

Published

2016

25. Optical phase-locking among phase-conjugated twin waves and free-running pump by using sum-frequency and second harmonic generation assisted OPLL for ND-PSA repeaters

Author

Kotaro Kondo, Yasuhiro Okamura, Masafumi Koga, Atsushi Takada, and Yuya Ohmichi

Subjects

Physics, Signal processing, Sum-frequency generation, business.industry, Phase (waves), Physics::Optics, Second-harmonic generation, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Phase locking, 010309 optics, Optics, 0103 physical sciences, Phase noise, 0210 nano-technology, business, Phase-shift keying

Abstract

Optical phase-locking among 5-Gbit/s BPSK phase-conjugated twin waves and a free-funning pump is experimentally demonstrated. A sum-frequency and second harmonic generation assisted OPLL circuit compensates error signals between the PCTWs and the pump successfully.

Published

2016

26. Hundred mJ, sub-picoseconds, high temporal contrast OPCPA/Yb:YAG ceramic thin disk hybrid laser system

Author

Kotaro Kondo, T. Yoshii, Shunichi Kawanishi, Shinichi Matsuoka, Masatoshi Sato, H. Kan, Paul R. Bolton, Izuru Daito, Hajime Okada, Akira Sugiyama, Hiromitsu Kiriyama, Yoshihiro Ochi, Yoshinori Tamaoki, J. Maeda, and Masayuki Suzuki

Subjects

Materials science, Physics and Astronomy (miscellaneous), Preamplifier, business.industry, Amplifier, General Engineering, General Physics and Astronomy, Pulse duration, Laser, law.invention, Pulse (physics), Optics, Thin disk, law, visual_art, Picosecond, visual_art.visual_art_medium, Ceramic, business

Abstract

The authors have demonstrated an optical parametric chirped-pulse amplification (OPCPA)/Yb:YAG ceramic thin disk hybrid laser system having hundred mJ level pulse energy sub-picosecond pulse duration with high temporal contrast. At an input chirped-pulse energy of 3.8 mJ from an OPCPA preamplifier an output energy of 130 mJ has been generated from multipass diode-pumped Yb:YAG ceramic thin disk amplifier. A recompressed pulse duration of 450 fs with a contrast level of less than 7.2×10−9 at −150 ps before the main pulse has been obtained. The contrast level is the highest value achieved in Yb:YAG chirped-pulse amplification (CPA) laser system at 100 mJ level.

Published

2011

27. X-ray emission from stainless steel foils irradiated by femtosecond petawatt laser pulses

Author

A. Zhidkov, I. Yu. Skobelev, S. Sagisaka, S. V. Bulanov, Alexander Andreev, Yuji Fukuda, Tatiana Pikuz, A. Ya. Faenov, Koichi Ogura, Timur Zh. Esirkepov, Ko. Kondo, Hiromitsu Kiriyama, Mamiko Nishiuchi, Alexander S. Pirozhkov, T. Miyahara, Masaki Kando, R. Kodama, K. Nishitani, Hironao Sakaki, Nicholas P. Dover, M. A. Alkhimova, Kotaro Kondo, Yukinobu Watanabe, and S. A. Pikuz

Subjects

History, Materials science, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Bremsstrahlung, X-ray, Plasma, Laser, 01 natural sciences, Emission intensity, 010305 fluids & plasmas, Computer Science Applications, Education, law.invention, Optics, law, 0103 physical sciences, Femtosecond, Irradiation, 010306 general physics, business, Intensity (heat transfer)

Abstract

We report about nonlinear growth of x-ray emission intensity emitted from plasma generated by femtosecond petawatt laser pulses irradiating stainless steel foils. X-ray emission intensity increases as ~ I 4.5 with laser intensity I on a target. High spectrally resolved x-ray emission from front and rear surfaces of 5 μm thickness stainless steel targets were obtained at the wavelength range 1.7–2.1 A, for the first time in experiments at femtosecond petawatt laser facility J-KAREN-P. Total intensity of front x-ray spectra three times dominates to rear side spectra for maximum laser intensity I ≈ 3.2×1021 W/cm2. Growth of x-ray emission is mostly determined by contribution of bremsstrahlung radiation that allowed estimating bulk electron plasma temperature for various magnitude of laser intensity on target.

Published

2018

28. Single shot third-order cross-correlator for ultra-high intensity laser

Author

Kotaro Kondo, Hiromitsu Kiriyama, Akira Kon, Koichi Ogura, Yuji Fukuda, Hironao Sakaki, Mamiko Nishiuchi, and Masaki Kando

Subjects

Physics, business.industry, High intensity, Single shot, Plasma, Laser, law.invention, Pulse (physics), Third order, Optics, Band-pass filter, law, business, Optical filter

Abstract

We have developed a multi-channel cross-correlator (MCCC) for single-shot measurement of temporal contrast of Peta-watt class laser pulse. We report experimental results with the MCCC system.

Published

2015

29. GEKKO/HIPER-driven shock waves and equation-of-state measurements at ultrahigh pressures

Author

T. Ono, H. Nagao, Masatake Yoshida, M. Nakai, K. A. Tanaka, Hiroshi Azechi, K. Wakabayashi, Keisuke Shigemori, Norimasa Ozaki, T. Yamanaka, and Kotaro Kondo

Subjects

Physics, Shock wave, Wavelength, Equation of state, Optics, Kinoform, business.industry, HiPER, Phase (waves), Fusion power, Condensed Matter Physics, business, Shock (mechanics)

Abstract

The GEKKO/HIPER-laser [N. Miyanaga et al., in Proceedings of the 18th International Conference on Fusion Energy (IAEA, Sorrento, Italy, 2001), IAEA-CN-77] driven shock experiments were characterized in detail for studies on equation-of-state (EOS) at ultrahigh pressures. High-quality shock waves were produced with the bundled 9 laser beams optically smoothed by spectral dispersion technique and Kinoform phase plates. The laser beams were directly focused on targets at up to an intensity of 1014 W/cm2 or higher with a wavelength of 351 nm and a duration of 2.5 ns. Key issues on dynamic EOS research; the spatial uniformity and temporal steadiness of shock wave were estimated, and the preheating problem was also investigated by measurements of the self-emission and reflectivity from target rear surface. The experimental and analytical methods were validated by using double-step targets consisting of two Hugoniot standard metals. Extreme pressures only accessed in nuclear explosion experiments were generated ...

Published

2004

30. Plasma mirror implementation on LFEX laser for ion and fast electron fast ignition

Author

Kazuki Matsuo, S. Tosaki, Kotaro Kondo, Yasunobu Arikawa, Sadaoki Kojima, Mitsuo Nakai, Alessio Morace, S. Sakata, Akito Sagisaka, Hiroyuki Shiraga, Akifumi Yogo, Yuki Abe, Takahisa Jitsuno, Alexander S. Pirozhkov, Shinsuke Fujioka, N. Miyanaga, Seung Ho Lee, Takayoshi Norimatsu, Hiroaki Nishimura, and Hiroshi Azechi

Subjects

Nuclear and High Energy Physics, Materials science, Proton, business.industry, Electron, Plasma, Condensed Matter Physics, Laser, 01 natural sciences, 010305 fluids & plasmas, Ion, law.invention, Pulse (physics), Ignition system, Optics, law, 0103 physical sciences, Particle-in-cell, 010306 general physics, business

Abstract

In this work we report the successful implementation of plasma mirror (PM) technology on an LFEX laser facility at the Institute of Laser Engineering, Osaka University. The LFEX laser pulse was successfully refocused at the target chamber center (TCC) by means of a spherical plasma mirror, resulting in 5 × 1018 W cm−2 laser intensity, with 45% reflectivity at a laser flux of about 90 J cm−2 on the PM. Experimental results show stable focusing and pointing of the LFEX pulse after PM refocusing. The contrast improvement was demonstrated by both cooler fast electron slope temperature distribution as well as by the ability to shoot sub-µm plastic foils obtaining proton beams with maximum energy exceeding 20 MeV. Experimental results are qualitatively reproduced by 2D particle in cell simulations.

Published

2017

31. Approaching the diffraction-limited, bandwidth-limited Petawatt

Author

K. Ogura, Alexander S. Pirozhkov, Kotaro Kondo, Kai Huang, Mamiko Nishiuchi, Hironao Sakaki, Masaki Kando, Michiaki Mori, Nicholas P. Dover, A. Sagisaka, Hiromitsu Kiriyama, Maki Kishimoto, Yuji Fukuda, Masato Kanasaki, Kiminori Kondo, and Nobuhiko Nakanii

Subjects

Physics, Diffraction, Wavefront, business.industry, Parabolic reflector, Strehl ratio, Laser, 01 natural sciences, Atomic and Molecular Physics, and Optics, law.invention, 010309 optics, Optics, law, 0103 physical sciences, Chromatic aberration, Chirp, Laser beam quality, 010306 general physics, business

Abstract

J-KAREN-P is a high-power laser facility aiming at the highest beam quality and irradiance for performing state-of-the art experiments at the frontier of modern science. Here we approached the physical limits of the beam quality: diffraction limit of the focal spot and bandwidth limit of the pulse shape, removing the chromatic aberration, angular chirp, wavefront and spectral phase distortions. We performed accurate measurements of the spot and peak fluence after an f/1.3 off-axis parabolic mirror under the full amplification at the power of 0.3 PW attenuated with ten high-quality wedges, resulting in the irradiance of ~1022 W/cm2 and the Strehl ratio of ~0.5.

Published

2017

32. Source Development of Novel Coherent X-Rays and Their Applications in JAEA

Author

Akira Sasaki, Tetsuya Kawachi, S. V. Bulanov, Tatiana Pikuz, Yoshiaki Kato, Masaharu Nishikino, Anatoly Ya. Faenov, Momoko Tanaka, Timur Zh. Esirkepov, Kotaro Kondo, Masahiko Ishino, N. Hasegawa, Takuro Tomita, Chul Min Kim, Masaki Kando, Tatsufumi Nakamura, Alexander S. Pirozhkov, Takashi Imazono, Yoshihiro Ochi, Karol A. Janulewicz, G. E. Norman, Kazumichi Namikawa, Mitsuru Yamagiwa, T. Suemoto, and Holger Stiel

Subjects

Materials science, business.industry, Photon energy, Polarization (waves), Laser, law.invention, Wavelength, Interferometry, Optics, Relativistic plasma, law, Harmonics, business, Collisional excitation

Abstract

This paper reviews recent progress in the source development of intense coherent x-rays and the applications in the research fields such as material science and laser processing in Japan Atomic Energy Agency (JAEA). In the source development, the polarization of the fully spatial coherent 13.9 nm soft x-ray laser (SXRL) in the transient collisional excitation (TCE) scheme was investigated experimentally. The result indicated that the SXRL beam was strongly polarized in the direction perpendicular to the target surface. In the alternative schemes toward the short wavelength region, intense higher-order harmonics with the photon energy of more than 300 eV was observed from a relativistic plasma generated with the laser intensity higher than 1018 W/cm2. In the applications of the 13.9 nm TCE laser, we observed temporal evolution of surface distortion of Pt sample pumped by a 80 fs optical pulse by use of x-ray laser interferometer using double Lloyd’s mirrors and reflectometer. In the study of SXRL ablation, the melting depth of the substances using single shot SXRL exposure was measured, and the result was quantitatively consistent with the calculated result based upon the spallative ablation model by molecular-dynamics code.

Published

2014

33. Ion acceleration by the 1021 Wcm−2 intensity high contrast laser pulses interacting with the thin foil target

Author

Tatiana Pikuz, K. Matsukawa, M. Kanasaki, Akito Sagisaka, Kotaro Kondo, Alexander S. Pirozhkov, T. Zh. Esirkepov, A. Ya. Faenov, Hiromitsu Kiriyama, Yuji Fukuda, Mamiko Nishiuchi, Tomoya Yamauchi, Masaki Kando, Katsuhisa Nishio, Koichi Ogura, Hiroyuki Sako, S. V. Bulanov, Hironao Sakaki, and Yukinobu Watanabe

Subjects

Materials science, Physics::Instrumentation and Detectors, business.industry, Laser, Pulse (physics), law.invention, Ion, Micrometre, X-ray laser, Acceleration, Optics, Physics::Plasma Physics, law, Electric field, Physics::Accelerator Physics, Atomic physics, business, FOIL method

Abstract

Almost fully stripped aluminum ion acceleration up to 12 MeV/u from the interaction between the ultra-intense short pulse high contrast laser and the micrometer thick foil target is presented.

Published

2014

34. Flyer acceleration experiments using a KrF laser system with a long pulse duration and pressure and thickness of isobaric zone induced in impacted materials

Author

Kazuhisa Fujita, Kotaro Kondo, K. Takamatsu, Toshihiko Kadono, I. Matsushima, Y. Owadano, Masatake Yoshida, K. A. Tanaka, Norimasa Ozaki, Motohiro Nakano, Yasufumi Sasatani, Eiichi Takahashi, T. Matsumura, H. Ito, N.K. Mitani, and Hisataka Takenaka

Subjects

Shock wave, Materials science, business.industry, Tantalum, chemistry.chemical_element, Pulse duration, Diamond, engineering.material, Condensed Matter Physics, Laser, Atomic and Molecular Physics, and Optics, Intensity (physics), law.invention, Acceleration, Optics, chemistry, law, engineering, Isobaric process, Electrical and Electronic Engineering, business

Abstract

Flyer acceleration experiments are carried out using a KrF laser system with a pulse duration of 10–15 ns and an intensity of ∼1.0 × 1013 W/cm2. Three-layered targets (aluminum–polyimide–tantalum) are used. First, an average velocity of laser-driven tantalum flyers with a thickness of 4 and 8 μm is estimated. Then, in a collision of a flyer with a copper layer attached to a diamond plate, we measure a transit time of a shock wave in the diamond. The impact velocity is estimated based on the transit time and a numerical simulation. This numerical simulation also shows that the initial peak pressure caused by the impact of a 4-μm-thick flyer is kept at 11 Mbar for 12–13 μm in thickness. Finally, whether this thickness is enough for EOS measurements is discussed.

Published

2001

35. Electromagnetically driven radiative shocks and their measurements

Author

Tohru Kawamura, Mitsuo Nakajima, Kotaro Kondo, and Kazuhiko Horioka

Subjects

Physics, Shock wave, Physics::Instrumentation and Detectors, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Front (oceanography), General Physics and Astronomy, Pulsed power, Shock (mechanics), Optics, Critical speed, Radiative transfer, Tube (fluid conveyance), Bow shock (aerodynamics), business, Astrophysics::Galaxy Astrophysics

Abstract

Experimental results on a generation of strong shocks in a compact pulse power device are reported. To make a strong and plain shock wave, electrodes are tapered and an acrylic guiding tube is located on the top of the electrodes. It drives a quasi-one-dimensional strong shock in the guiding tube. When the front speed is more than the critical speed D rad , an interesting structure is confirmed at the shock front, which indicate a phenomenon proceeded by the radiative transport.

Published

2006

36. Efficient multi-keV X-ray generation from high-contrast laser plasma interaction

Author

Kotaro Kondo, Hong-bo Cai, Tomoyuki Johzaki, Atsushi Sunahara, Zhe Zhang, Tetsuya Kawachi, Yasuaki Okano, Koichi Ogura, Akito Sagisaka, Akifumi Yogo, Masaharu Nishikino, Shinsuke Fujioka, Hiromitsu Kiriyama, Takuya Shimomura, Alexander S. Pirozhkov, Shuhei Kanazawa, Hiroaki Nishimura, S. Orimo, and S. Ohshima

Subjects

Chemistry, business.industry, media_common.quotation_subject, Physics, QC1-999, X-ray, Analytical chemistry, Plasma, Laser, law.invention, Optics, law, Femtosecond, Contrast (vision), Contrast ratio, Irradiation, business, media_common, Line (formation)

Abstract

Kα line emission from Mo was experimentally and theoretically studied using clean, ultrahigh-intensity femtosecond laser pulses. The absolute yields of Kα x-rays at 17 keV from Mo were measured as a function of the laser pulse contrast ratio and irradiation intensity. Significantly enhanced Kα yields were obtained by employing high contrast ratio at optimum irradiance. Conversion efficiencies of 4.28 × 10 −5 /sr, the highest values obtained to date, was demonstrated with contrast ratios in the range of 10 −10 to 10 −11 .

Published

2013

37. Mie scattering from submicron-sized CO2 clusters formed in a supersonic expansion of a gas mixture

Author

Kotaro Kondo, Tatiana Pikuz, V.A. Gasilov, M. Kanasaki, Hironao Sakaki, I. Yu. Skobelev, Satoshi Jinno, Yuji Fukuda, Akifumi Yogo, A. Ya. Faenov, and A. S. Boldarev

Subjects

Jet (fluid), Materials science, business.industry, Forward scatter, Mie scattering, Nozzle, Atomic and Molecular Physics, and Optics, Light scattering, symbols.namesake, Optics, symbols, Cluster (physics), Supersonic speed, Astrophysics::Earth and Planetary Astrophysics, Rayleigh scattering, business

Abstract

A detailed mathematical model is presented for a submicron-sized cluster formation in a binary gas mixture flowing through a three-staged conical nozzle. By measuring the angular distribution of light scattered from the clusters, the size of CO(2) clusters, produced in a supersonic expansion of the mixture gas of CO(2)(30%)/H(2)(70%) or CO(2)(10%)/He(90%), has been evaluated using the Mie scattering method. The mean sizes of CO(2) clusters are estimated to be 0.28 ± 0.03 μm for CO(2)/H(2) and 0.26 ± 0.04 μm for CO(2)/He, respectively. In addition, total gas density profiles in radial direction of the gas jet, measuring the phase shift of the light passing through the target by utilizing an interferometer, are found to be agreed with the numerical modeling within a factor of two. The dryness (= monomer/(monomer + cluster) ratio) in the targets is found to support the numerical modeling. The apparatus developed to evaluate the cluster-gas targets proved that our mathematical model of cluster formation is reliable enough for the binary gas mixture.

Published

2013

38. Present status of fast ignition realization experiment and inertial fusion energy development

Author

Tomoyuki Johzaki, Tatsufumi Nakamura, J. Kawanaka, H. Homma, Mitsuo Nakai, Kotaro Kondo, Yasushi Fujimoto, Hiroshi Azechi, Peter Norreys, Toshihiko Shimizu, Atsushi Sunahara, Nobuhiko Sarukura, K. A. Tanaka, Hideo Nagatomo, R. Kodama, Katsunobu Nishihara, Yasuyuki Nakao, Takayoshi Norimatsu, Hirotaka Nakamura, Mayuko Koga, S. Shiraga, T. Ozaki, Kunioki Mima, Koji Tsubakimoto, Hitoshi Sakagami, Toshihiro Taguchi, Keisuke Shigemori, Akifumi Iwamoto, Shinsuke Fujioka, M. H. Key, M. Murakami, Keiji Nagai, N. Miyanaga, Hiroaki Nishimura, John Pasley, Yoichi Sakawa, Tomoharu Nakazato, and Takahisa Jitsuno

Subjects

Physics, Nuclear and High Energy Physics, business.industry, Nuclear engineering, Phase (waves), Autoignition temperature, Fusion power, Condensed Matter Physics, Laser, law.invention, Ignition system, law, Physics::Plasma Physics, Physics::Chemical Physics, business, Realization (systems), Energy (signal processing), Thermal energy

Abstract

One of the most advanced fast ignition programmes is the fast ignition realization experiment (FIREX). The goal of its first phase is to demonstrate ignition temperature of 5 keV, followed by the second phase to demonstrate ignition-and-burn. The second series experiment of FIREX-I, from late 2010 to early 2011, has demonstrated a high (>10%) coupling efficiency from laser to thermal energy of the compressed core, suggesting that the ignition temperature can be achieved at laser energy below 10 kJ. Further improvement of the coupling efficiency is expected by introducing laser-driven magnetic fields. © 2013 IAEA, Vienna.

Published

2013

39. High-order harmonics from gas-target irradiated by relativistic-intensity laser

Author

Hideyuki Kotaki, Masaharu Nishikino, Tatiana Pikuz, A. Ya. Faenov, Tetsuya Kawachi, Kotaro Kondo, Hiromitsu Kiriyama, Takashi Imazono, James Koga, Koichi Ogura, D. Neely, Yukio Hayashi, Alexander S. Pirozhkov, Hiroyuki Daido, E. N. Ragozin, Yuji Fukuda, S. V. Bulanov, Masaki Kando, T. Zh. Esirkepov, Y. Kato, and N. Hasegawa

Subjects

Physics, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Far-infrared laser, Ti:sapphire laser, Physics::Optics, Laser pumping, Laser, law.invention, Optics, law, Harmonics, High harmonic generation, Physics::Atomic Physics, Laser power scaling, Atomic physics, business, Tunable laser

Abstract

High-order harmonics of a Ti:sapphire drive laser were observed when the laser pulse was incident on a He gas-jet target at the relativistic intensity. Both the forward and off axis spectra shows the resolved harmonics.

Published

2013

40. Fine spectral structure of high order harmonics generated by multi-terawatt femtosecond lasers focused to gas jet targets

Author

Paul R. Bolton, D. Neely, Tatiana Pikuz, Tetsuya Kawachi, Hiromitsu Kiriyama, E. N. Ragozin, Alexander S. Pirozhkov, Manabu Tanoue, Timur Zh. Esirkepov, S. V. Bulanov, Shuhei Kanazawa, N. Hasegawa, Yukio Hayashi, Masaki Kando, S. Kondo, Kotaro Kondo, Koichi Ogura, Takuya Shimomura, James Koga, Masaharu Nishikino, Yuji Fukuda, Y. Kato, Hideyuki Kotaki, A. Ya. Faenov, Yoshiki Nakai, Takashi Imazono, M. Okamoto, and Hiroyuki Daido

Subjects

Physics, business.industry, Physics::Optics, Laser, Photon counting, Spectral line, law.invention, Optics, law, Harmonics, Femtosecond, High harmonic generation, High order, business, Coherence (physics)

Abstract

We measured high-resolution spectra of high-order harmonics generated in the interaction of relativistic-irradiance (>1018 W/cm2) multi-terawatt femtosecond lasers with gas jets. The spectra exhibit very fine structures on the sub-eV scale, indicating temporal coherence of a few tens of femtoseconds.

Published

2013

41. Fast ignition realization experiment with high-contrast kilo-joule peta-watt LFEX laser and strong external magnetic field

Author

Yasunobu Arikawa, Atsushi Sunahara, Yoichiro Hironaka, Tomoyuki Johzaki, Takashi Shiroto, S. Tosaki, Claudio Bellei, Hiroshi Sawada, Yuki Abe, Tetsuo Ozaki, Junji Kawanaka, Shohei Sakata, Takayoshi Norimatsu, Hiroshi Azechi, S. Lee, H. Shiraga, Zhe Zhang, Hitoshi Sakagami, Sadaoki Kojima, Takahisa Jitsuno, Mitsuo Nakai, Kunioki Mima, Mathieu Bailly-Grandvaux, Hiroaki Nishimura, Noriaki Miyanaga, Alessio Morace, Akifumi Yogo, King Fai Farley Law, Shigeki Tokita, Kazuki Matsuo, Joao Santos, Yoshiki Nakata, Yasushi Fujimoto, Naofumi Ohnishi, Kohei Yamanoi, Kotaro Kondo, Keisuke Shigemori, Shinsuke Fujioka, Hideo Nagatomo, and X. Vaisseau

Subjects

Shock wave, Physics, business.industry, Implosion, Plasma, Condensed Matter Physics, Laser, 01 natural sciences, 010305 fluids & plasmas, law.invention, Magnetic mirror, Optics, law, 0103 physical sciences, Relativistic electron beam, Plasma diagnostics, 010306 general physics, business, Inertial confinement fusion

Abstract

A petawatt laser for fast ignition experiments (LFEX) laser system [N. Miyanaga et al., J. Phys. IV France 133, 81 (2006)], which is currently capable of delivering 2 kJ in a 1.5 ps pulse using 4 laser beams, has been constructed beside the GEKKO-XII laser facility for demonstrating efficient fast heating of a dense plasma up to the ignition temperature under the auspices of the Fast Ignition Realization EXperiment (FIREX) project [H. Azechi et al., Nucl. Fusion 49, 104024 (2009)]. In the FIREX experiment, a cone is attached to a spherical target containing a fuel to prevent a corona plasma from entering the path of the intense heating LFEX laser beams. The LFEX laser beams are focused at the tip of the cone to generate a relativistic electron beam (REB), which heats a dense fuel core generated by compression of a spherical deuterized plastic target induced by the GEKKO-XII laser beams. Recent studies indicate that the current heating efficiency is only 0.4%, and three requirements to achieve higher efficiency of the fast ignition (FI) scheme with the current GEKKO and LFEX systems have been identified: (i) reduction of the high energy tail of the REB; (ii) formation of a fuel core with high areal density using a limited number (twelve) of GEKKO-XII laser beams as well as a limited energy (4 kJ of 0.53-μm light in a 1.3 ns pulse); (iii) guiding and focusing of the REB to the fuel core. Laser–plasma interactions in a long-scale plasma generate electrons that are too energetic to efficiently heat the fuel core. Three actions were taken to meet the first requirement. First, the intensity contrast of the foot pulses to the main pulses of the LFEX was improved to >109. Second, a 5.5-mm-long cone was introduced to reduce pre-heating of the inner cone wall caused by illumination of the unconverted 1.053-μm light of implosion beam (GEKKO-XII). Third, the outside of the cone wall was coated with a 40-μm plastic layer to protect it from the pressure caused by imploding plasma. Following the above improvements, conversion of 13% of the LFEX laser energy to a low energy portion of the REB, whose slope temperature is 0.7 MeV, which is close to the ponderomotive scaling value, was achieved. To meet the second requirement, the compression of a solid spherical ball with a diameter of 200-μm to form a dense core with an areal density of ∼0.07 g/cm2 was induced by a laser-driven spherically converging shock wave. Converging shock compression is more hydrodynamically stable compared to shell implosion, while a hot spot cannot be generated with a solid ball target. Solid ball compression is preferable also for compressing an external magnetic field to collimate the REB to the fuel core, due to the relatively small magnetic Reynolds number of the shock compressed region. To meet the third requirement, we have generated a strong kilo-tesla magnetic field using a laser-driven capacitor-coil target. The strength and time history of the magnetic field were characterized with proton deflectometry and a B-dot probe. Guidance of the REB using a 0.6-kT field in a planar geometry has been demonstrated at the LULI 2000 laser facility. In a realistic FI scenario, a magnetic mirror is formed between the REB generation point and the fuel core. The effects of the strong magnetic field on not only REB transport but also plasma compression were studied using numerical simulations. According to the transport calculations, the heating efficiency can be improved from 0.4% to 4% by the GEKKO and LFEX laser system by meeting the three requirements described above. This efficiency is scalable to 10% of the heating efficiency by increasing the areal density of the fuel core.

Published

2016

42. Erratum: Ion acceleration via ‘nonlinear vacuum heating’ by the laser pulse obliquely incident on a thin foil target (2016Plasma Phys. Control. Fusion58025003)

Author

Kotaro Kondo, M. Kanasaki, S. V. Bulanov, T. Zh. Esirkepov, Hiroaki Nishimura, Akifumi Yogo, Alexander S. Pirozhkov, Paul R. Bolton, Yuji Fukuda, Hironao Sakaki, Michiyasu Mori, and Koichi Ogura

Subjects

0301 basic medicine, Fusion, Materials science, business.industry, Plasma, Ion acceleration, Condensed Matter Physics, Laser, law.invention, Pulse (physics), 03 medical and health sciences, Nonlinear system, 030104 developmental biology, Optics, Nuclear Energy and Engineering, law, Atomic physics, business, FOIL method

Published

2016

43. Velocity Evolution of Electro-Magnetically-Driven Shock Wave for Beam-Dissociated Hydrogen Interaction Experiment

Author

Kotaro Kondo and Yoshiyuki Oguri

Subjects

Shock wave, Physics, History, business.industry, Plasma, Laser, Moving shock, Computer Science Applications, Education, Photodiode, law.invention, Microsecond, Optics, law, business, Shock tube, Voltage

Abstract

We present the velocity measurements in electro-magnetic shock tube for beam interaction experiment by three methods; laser refraction, photodiode for self-emission, and high speed framing camera. The laser refraction showed that the average shock velocity was 6.7 km/s when the initial pressure was 1000 Pa and the initial charging voltage was 16 kV. The self-emissions from piston discharge plasma were measured by photodiodes and by high speed framing camera. The measurements showed that the duration between shock and piston was up to 8 microseconds with a 400-mm propagation in the shock tube, which is enough time as dissociation target for beam interaction experiment.The complementary velocity measurement is significant for understanding the electro-magnetically driven shock physics.

Published

2016

44. Direct measurement of kilo-tesla level magnetic field generated with laser-driven capacitor-coil target by proton deflectometry

Author

Kotaro Kondo, Zhe Zhang, Yasunobu Arikawa, Akifumi Yogo, Alessio Morace, S. Lee, Kazuki Matsuo, Hiroshi Azechi, Sadaoki Kojima, Joao Santos, Mathieu Bailly-Grandvaux, Shinsuke Fujioka, X. Vaisseau, King Fai Farley Law, Shohei Sakata, and C. Bellei

Subjects

Physics, Physics and Astronomy (miscellaneous), Proton, business.industry, Plasma, 01 natural sciences, 010305 fluids & plasmas, Magnetic field, symbols.namesake, Optics, Amplitude, Electromagnetic coil, 0103 physical sciences, Electromagnetic shielding, symbols, Physics::Accelerator Physics, 010306 general physics, business, Lorentz force, Beam (structure)

Abstract

A kilo-tesla level, quasi-static magnetic field (B-field), which is generated with an intense laser-driven capacitor-coil target, was measured by proton deflectometry with a proper plasma shielding. Proton deflectometry is a direct and reliable method to diagnose strong, mm3-scale laser-produced B-field; however, this was not successful in the previous experiment. A target-normal-sheath-accelerated proton beam is deflected by Lorentz force in the laser-produced magnetic field with the resulting deflection pattern recorded on a radiochromic film stack. A 610 ± 30 T of B-field amplitude was inferred by comparing the experimental proton pattern with Monte-Carlo calculations. The amplitude and temporal evolutions of the laser-generated B-field were also measured by a differential magnetic probe, independently confirming the proton deflectometry measurement results.

Published

2016

45. Quantitative measurement of hard x-ray spectra for high intensity laser produced plasma

Author

Kotaro Kondo, H. Hosoda, Akito Sagisaka, Hiroaki Nishimura, Yasuaki Okano, Koichi Ogura, Masaharu Nishikino, Zhe Zhang, Yasunobu Arikawa, Akifumi Yogo, Shinsuke Fujioka, Hiromitsu Kiriyama, Alexander S. Pirozhkov, S. Ohshima, Tetsuya Kawachi, S. Orimo, T. Namimoto, and Hiroshi Azechi

Subjects

Diffraction, Physics, Spectrometer, Physics::Instrumentation and Detectors, business.industry, Astrophysics::High Energy Astrophysical Phenomena, Detector, Plasma, Laser, Spectral line, law.invention, Crystal, Optics, law, Plasma diagnostics, Atomic physics, business, Instrumentation

Abstract

X-ray line spectra ranging from 17 to 77 keV were quantitatively measured with a Laue spectrometer, composed of a cylindrically curved crystal and a detector. Either a visible CCD detector coupled with a CsI phosphor screen or an imaging plate can be chosen, depending on the signal intensities and exposure times. The absolute sensitivity of the spectrometer system was calibrated using pre-characterized laser-produced x-ray sources and radioisotopes. The integrated reflectivity for the crystal is in good agreement with predictions by an open code for x-ray diffraction. The energy transfer efficiency from incident laser beams to hot electrons, as the energy transfer agency for specific x-ray line emissions, is derived as a consequence of this work.

Published

2012

46. Soft X-ray harmonic comb from relativistic electron spikes

Author

E. N. Ragozin, Tetsuya Kawachi, Brendan Dromey, Michiyasu Mori, David Neely, Kotaro Kondo, P. P. Rajeev, Toshiki Tajima, Paul McKenna, P. Gallegos, Nobuyuki Nishimori, Izuru Daito, Hajime Okada, Akito Sagisaka, D. R. Symes, Peta Foster, M. Coury, Liming Chen, Alexander S. Pirozhkov, Hideyuki Kotaki, Ceri Brenner, Sergei V. Bulanov, Takashi Imazono, Yukio Hayashi, Yoshiaki Kato, Hamad Ahmed, Takashi Kameshima, Toyoaki Kimura, Koichi Ogura, K. Kawase, James Green, Yuji Fukuda, T. Zh. Esirkepov, Hiromitsu Kiriyama, A. Ya. Faenov, James Koga, Marco Borghesi, Masaki Kando, T. A. Pikuz, and Hiroyuki Daido

Subjects

Physics, Water window, business.industry, General Physics and Astronomy, FOS: Physical sciences, Electron, Physics and Astronomy(all), Laser, Physics - Plasma Physics, law.invention, Plasma Physics (physics.plasm-ph), Optics, Bow wave, law, Harmonics, Femtosecond, Harmonic, High harmonic generation, Atomic physics, business, Physics - Optics, Optics (physics.optics)

Abstract

We demonstrate a new high-order harmonic generation mechanism reaching the "water window" spectral region in experiments with multiterawatt femtosecond lasers irradiating gas jets. A few hundred harmonic orders are resolved, giving mu J/sr pulses. Harmonics are collectively emitted by an oscillating electron spike formed at the joint of the boundaries of a cavity and bow wave created by a relativistically self-focusing laser in underdense plasma. The spike sharpness and stability are explained by catastrophe theory. The mechanism is corroborated by particle-in-cell simulations.

Published

2012

47. High-order harmonics from bow wave caustics driven by a high-intensity laser

Author

Hideyuki Kotaki, Takashi Kameshima, T. Zh. Esirkepov, Ceri Brenner, P. P. Rajeev, E. N. Ragozin, Brendan Dromey, Liming Chen, A. Ya. Faenov, Izuru Daito, Marco Borghesi, Alexander S. Pirozhkov, Tetsuya Kawachi, D. Neely, Peta Foster, Hiroyuki Daido, Takashi Imazono, D. R. Symes, Hamad Ahmed, Yoshiaki Kato, Masaki Kando, Hajime Okada, James Koga, Keigo Kawase, Kotaro Kondo, James Green, Tatiana Pikuz, P. Gallegos, Hiromitsu Kiriyama, Akito Sagisaka, Yukio Hayashi, Michiyasu Mori, Nobuyuki Nishimori, Yuji Fukuda, Paul McKenna, Toyoaki Kimura, Sergei V. Bulanov, Koichi Ogura, Toshiki Tajima, and M. Coury

Subjects

Physics, Electron density, business.industry, Laser, Plasma oscillation, law.invention, Pulse (physics), Optics, law, Bow wave, Harmonics, High harmonic generation, Electromagnetic electron wave, business

Abstract

We propose a new mechanism of high-order harmonic generation during an interaction of a high-intensity laser pulse with underdense plasma. A tightly focused laser pulse creates a cavity in plasma pushing electrons aside and exciting the wake wave and the bow wave. At the joint of the cavity wall and the bow wave boundary, an annular spike of electron density is formed. This spike surrounds the cavity and moves together with the laser pulse. Collective motion of electrons in the spike driven by the laser field generates high-order harmonics. A strong localization of the electron spike, its robustness to oscillations imposed by the laser field and, consequently, its ability to produce high-order harmonics is explained by catastrophe theory. The proposed mechanism explains the experimental observations of high-order harmonics with the 9 TW J-KAREN laser (JAEA, Japan) and the 120 TW Astra Gemini laser (CLF RAL, UK) [A. S. Pirozhkov, et al., arXiv:1004.4514 (2010); A. S. Pirozhkov et al, AIP Proceedings, this volume]. The theory is corroborated by high-resolution two-and three-dimensional particle-in-cell simulations.

Published

2012

48. Coherent x-ray generation in relativistic laser/gas jet interactions

Author

T. A. Pikuz, Hiroyuki Daido, T. Zh. Esirkepov, David Neely, James Koga, A. Ya. Faenov, Eugene N. Ragozin, Y. Kato, Sergei V. Bulanov, Hamad Ahmed, Masaki Kando, Paul McKenna, Marco Borghesi, Alexander S. Pirozhkov, Hiromitsu Kiriyama, Kotaro Kondo, and P. Gallegos

Subjects

Physics, Photon, business.industry, Thomson scattering, Electron, Laser, law.invention, Optics, law, Harmonics, High harmonic generation, Laser power scaling, Atomic physics, business, Ultrashort pulse

Abstract

We present experimental results, theory, and simulations demonstrating two novel sources of coherent X-ray radiation generated in the relativistic laser (>10 18 W/cm 2 ) interaction with easily accessible, repetitive, and debris-free gas jet targets. The first source is based on a relativistic mirror reflecting a counter-propagating laser pulse. A strongly nonlinear breaking wake wave driven by an intense laser pulse can act as a semi-transparent relativistic flying mirror. Such a mirror directly converts counter-propagating laser light into a high-frequency (XUV or X-ray) ultrashort pulse due to the double Doppler effect. In the experimental demonstration with the 9 TW J-KAREN laser, the flying mirror generated in a He gas jet partially reflected a 1 TW pulse, providing up to ~10 10 photons, 60 nJ (~10 12 photons/sr) in the XUV range (12.8-22 nm). The second source is demonstrated with the laser power ranging from 9 to 170 TW in experiments with the J-KAREN and Astra Gemini lasers. The odd and even order harmonics generated by linearly as well as circularly polarized pulses are emitted forward out of the gas jet. The 120 TW laser pulses produce harmonics with ~3×10 13 photons/sr (~600 μJ/sr) in the 120±5 eV spectral range. The observed harmonics cannot be explained by previously known mechanisms (atomic harmonics, betatron radiation, nonlinear Thomson scattering, etc.). We introduce a novel mechanism of harmonic generation based on the relativistic laser-plasma phenomena (self-focusing, cavity evacuation, bow wave generation), mathematical catastrophe theory which explains the formation of structurally stable electron density singularities, spikes, and collective radiation of a compact charge driven by a relativistic laser.

Published

2011

49. The progress in the laser-driven proton acceleration experiment JAEA with table-tip Ti:Sappire laser system

Author

Shunichi Kawanishi, M. Kanasaki, Mamiko Nishiuchi, Motonobu Tampo, Hiromitsu Kiriyama, Toshihiko Hori, Akito Sagisaka, D. Neely, Takuya Shimomura, T. Tanimoto, Ceri Brenner, Koichi Ogura, Hironao Sakaki, Akifumi Yogo, Kotaro Kondo, Yuji Fukuda, and Alexander S. Pirozhkov

Subjects

Materials science, Proton, business.industry, Sense (electronics), Table (information), Laser, law.invention, Acceleration, Optics, law, Sapphire, business, Beam (structure), Human cancer

Abstract

This paper presents the experimental investigation of laser-driven proton acceleration using a table top Ti:Sapphire laser system interacting with the thin-foil targets during the course of medical application of the laser-driven proton beam. The proton beam with maximum energy of upto 14~MeV is generated in 60 TW mode. The number of protons at ~10 MeV is estimated to be over 105 proton/sr/MeV/shot with beam having half divergence angle of 5~degree. If 10 Hz operation is assumed 2 Gy dose is possible to irradiate during 10 min onto a ~1 mm tumor just under the skin. In contrast to the previous condition of our apparatus with which we demonstrated the DNA double-strand breaking by irradiating the laser-driven proton beam onto the human cancer cells in-vitro test, the result reported here has significant meaning in the sense that pre-clinical in-vivo test can be started by irradiating the laser-driven proton beam onto the skin of the mouse, which is unavoidable step before the real radiation therapy.

Published

2011

50. Hundred mJ level, high contrast OPCPA/Yb:YAG hybrid laser system

Author

H. Kan, Akira Sugiyama, Masatoshi Sato, Hajime Okada, Yoshinori Tamaoki, Masayuki Suzuki, Shinichi Matsuoka, J. Maeda, Izuru Daito, Hiromitsu Kiriyama, T. Yoshii, Shunichi Kawanishi, Paul R. Bolton, and Kotaro Kondo

Subjects

Ytterbium, Amplified spontaneous emission, Materials science, business.industry, Amplifier, chemistry.chemical_element, Superradiance, Laser, law.invention, Optics, chemistry, Regenerative amplification, law, Femtosecond, Spontaneous emission, business

Abstract

Yb:YAG CPA have a potential to develop a compact, high peak power at high repetition rates. For high energy pulses of short duration Yb:YAG regenerative amplifiers have mainly been studied for which significant prepulse and amplified spontaneous emission (ASE). In laser proton acceleration studies it is very important to suppress the prepulse and ASE levels, because a preplasma is generated before the peak of the laser pulse, therefore the maximum proton energy is limited. To overcome this problem, the OPCPA can efficiently provide high gain for the main pulse while suppressing prepulse amplification. Here we have first demonstrated a hundred mJ level, femtosecond of an OPCPA/Yb:YAG hybrid laser system with a contrast level of 10−9 at −150 ps.

Published

2011