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X-Ray Lasers 2016 -

X-Ray Lasers 2016

Proceedings of the 15th International Conference on X-Ray Lasers
Buch | Softcover
XXXV, 421 Seiten
2019 | 2018
Springer International Publishing (Verlag)
978-3-319-89228-3 (ISBN)
CHF 299,55 inkl. MwSt
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These proceedings comprise a selection of invited and contributed papers presented at the 15th International Conference on X-Ray Lasers (ICXRL 2016), held at the Nara Kasugano International Forum, Japan, from May 22 to 27, 2016. This conference was part of an ongoing series dedicated to recent developments in the science and technology of x-ray lasers and other coherent x-ray sources with additional focus on supporting technologies, instrumentation and applications.

The book showcases recent advances in the generation of intense, coherent x-rays, the development of practical devices and their applications across a wide variety of fields. It also discusses emerging topics such as plasma-based x-ray lasers, 4th generation accelerator-based sources and higher harmonic generations, as well as other x-ray generation schemes.



S.V. Bulanov is currently a Distinguished Research Fellow at the National Institutes for Quantum and Radiological Science and Technology (QST). He graduated from the Moscow Institute of Physics and Technology, USSR, and earned his Ph.D. in theoretical physics and astrophysics in 1974. He worked at the P.N. Lebedev Physical Institute of the Academy of Sciences of the USSR and then at the Russian Academy of Sciences' General Physics Institute in Moscow, where in 1990 he was awarded his Dr.Sci. degree and where he is now a scientist in chief. He was a professor of physics and mathematics at the Moscow Institute of Physics and Technology, Russia. He joined the Japan Atomic Energy Research Institute (JAERI, then JAEA and QST) in 2002. His fields of study include the physics of nonlinear processes and charged particle acceleration in space and laboratory plasmas. He has received several notable prizes including the USSR for Science and Technology's State Prize and the European Physical Society's Hannes Alfven Prize. S. V. Bulanov has published 2 monographs and 600 papers. Yoshiaki Kato is currently president of The Graduate School for the Creation of New Photonics Industries (GPI) and president of The Laser Society of Japan. He graduated from the University of Tokyo and earned his Ph.D. in 1970. From 1975, he was engaged in high-power laser, laser fusion, x-ray laser, and laser electron acceleration research at the Institute of Laser Engineering, Osaka University. He co-chaired the 6th International Conference on X-Ray Lasers (ICXRL) in Kyoto in 1998 with H. Daido and H. Takuma. From 1998 to 2007, he was at the JAERI/JAEA Kansai Photon Science Institute (KPSI). He joined the GPI in 2007. He promoted high field science as chair of the OECD Global Science Forum Working Group on Compact, High-Intensity Short-Pulse Lasers from 2000 to 2004, leading to the establishment of IUPAP ICUIL (The International Union of Pure and Applied Physics, International Committee on Ultra-Intense Lasers) and the Asian Intense Laser Network, both in 2004. He has received several awards, including the American Physical Society's (APS) Award for Excellence in Plasma Physics Research. Y. Kato has published 350 papers. Hiroyuki Daido is currently the director of the Naraha Remote Technology Development Center, Japan Atomic Energy Agency (JAEA). He earned his doctorate degree from Osaka University in 1981. From 1991 to 2000 he worked at the Institute of Laser Engineering (ILE) Osaka University where he focused on CO2 laser-driven inertial fusion, soft x-ray lasers and incoherent soft x-ray sources and their applications. He moved to the Kansai Photon Science Institute (KPSI) of JAEA in 2000 where his work involves ultra-high intensity physics, and the development of ion sources and their applications. From 2009 to the present, he has been engaged in the study of laser technology for decommissioning nuclear facilities as well as maintaining social infrastructures. T. Kawachi is the director of the Kansai Photon Science Institute (KPSI) National Institutes for Quantum and Radiological Science and Technology (QST). He earned his Ph.D. from the Kyoto University in 1995. He started his career as a researcher at The Institute of Physical and Chemical Research (RIKEN) in 1995. He joined the Japan Atomic Energy Research Institute (JAERI) in 1998, where he took part in the table-top x-ray laser research project. He has achieved several remarkable results on laser-based plasma x-ray. Recently, he won the TAIZAN Award together with Dr. H. Daido from the Institute of Laser Technology.

Part 1: Plasma Based X-Ray Lasers and Applications (10 papers).- Chapter 1. Overview of Laser-driven Coherent Short-wavelength Sources at PALS and ELI Beamlines (Invited).-Chapter 2. High Average Power Table-Top Soft X-Ray Lasers Using Diode-Pumped Laser Drivers (Invited).- Chapter 3. Progress and Prospects of X-ray Laser Research at QST.-Chapter 4. DAGON: a 3D Maxwell-Bloch Code.- Chapter 5. Plasma-Source High-Resolution XUV Spectroscopy as Complementary to Beamlines Limitations (Invited).- Chapter 6. The creation of radiation dominated plasmas using laboratory X-ray lasers (Invited).- Chapter 7. Plasma Dynamics in Capillary Discharges (Invited).- Chapter 8. MHD Simulation of Various Cross-Section Capillary Discharges.- Chapter 9. Towards Generation of Sub-fs Pulses Using Lasing to Ground States of H-like LiIII at 13.5nm and He-like CV at 4nm.- Chapter 10. Numerical Calculation of Gain Coefficient for Recombination X-Ray Lasers in a Carbon Cluster plasma.- Part 2: Higher Harmonics and FEL Based X-Ray Lasers (10 papers).- Chapter 11. Investigations on Ultrafast Atomic and Molecular Dynamics with Harmonic Sources (Invited).- Chapter 12. Characterization of partially coherent ultrashort XUV pulses (Invited).- Chapter 13. High-Order Harmonic Generation by Relativistic Plasma Singularities: the Driving Laser Requirements (Invited).- Chapter 14. Wave-Mixing and Amplification in the Extreme Ultraviolet Region.- Chapter 15. HHG beam wavefront characterization at 30 nm.- Chapter 16. Using the X-FEL to drive gain in K-shell and L-shell systems using photo-ionization and photo-excitation of inner-shell transitions (Invited).- Chapter 17. Superfluorescence/Superradiance in Helium Following Free-Electron-Laser Excitation.- Chapter 18. In Situ Characterization of XFEL Beam Intensity Distribution and Focusibility by High Resolution LiF Crystal X-Ray Detector.- Chapter 19. Achieving Laser Wakefield Accelerated Electron Beams of Low Enough Energy Spread for an X-FEL.- Chapter 20. Proposal for Experiment Systems Using Laser Driven Heavy Ions and XFELs to Understand Physical Phenomena Occurring near the Incident Ion Path.- Part 3: Ultrafast X-Rays and Applications (11 papers).- Chapter 21. Laser driven plasma based incoherent X-ray sources at PALS and ELI Beamlines (Invited).- Chapter 22. Research on Laser Acceleration and Coherent X-ray Generation using J-KAREN-P laser (Invited).- Chapter 23. X-rays driven by Single-Cycle, Petawatt Lasers: A Path to Exawatt Pulses.-Chapter 24. Ultraintense X-Ray Radiation Photopumping of Exotic States of Matter by Relativistic Laser Plasma in the Radiation-Dominated Kinetic Regime (RDKR) (Invited).- Chapter 25. Enhanced coherent Thomson scattering in the few-cycle regime.- Chapter 26. Plasma channel undulator for narrow-bandwidth X-ray generation.- Chapter 27. Three-dimensional Supersonic Sapphire Micronozzles for Laser-Plasma Wakefield Accelerators.-Chapter 28. Generating ultrahigh brilliance quasi-monochromatic MeV -rays with high-quality LWFA electron beams.- Chapter 29. Features of Induced X-Ray Radiation and Possible Tandem FEL Realization on Channeling Particles.- Chapter 30. Features of Resonant Absorption and Short-Wavelength Laser Amplification in Realistic Media.- Part 4: Alternative X-Rays and Applications (5 papers).- Chapter 31. Observation and Investigation of Intensive Directional Quasi-coherent X-Ray Generated at Interaction of Cavitating Liquid Jet with a Target.- Chapter 32. Laser Plasma X-ray Source Based on Cryogenic Targets.-Chapter 33. Photoionization of Atomic Neon Induced Using Nanosecond Pulses of Extreme Ultraviolet (EUV).- Chapter 34. Effects of Equation of State on fluid simulations for laser-produced plasmas.- Part 5: X-Ray Imaging (9 papers).- Chapter 35. Soft X-Ray Laser Ablation Mass Spectrometry for Chemical Composition Imaging in Three Dimensions (3D) at the Nanoscale (Invited).- Chapter 36. Coherent Diffraction Imaging with Table-top XUV Sources (Invited).- Chapter 37. X-ray reflection imaging of inclined and obliquely illuminated objects (Invited).- Chapter 38. Nanoscale Imaging using a Compact Laser Plasma Source of Soft X-rays and Extreme Ultraviolet (EUV) (Invited).- Chapter 39. ERL-based Laser-Compton Scattering X-ray source for X-ray Imaging.- Chapter 40. 2D and 3D nanoscale imaging using high repetition rate laboratory based soft X-ray sources (Invited).- Chapter 41. The Observation Of Transient Thin Film Structures During The Femto-Second Laser Ablation Process By Using The Soft X-Ray Laser Probe.- Chapter 42. Spectrally-resolved spatial interference for single-shot temporal metrology of ultrashort soft X-ray pulses.- Part 6: X-Ray Optics and Damage (9 papers).- Chapter 43. Multilayer Mirrors for Focusing Objective in 40-nm Wavelength Region.- Chapter 44. Manufacture of High Precision, Multilayer Based Polarimeter Designed for Wide Energy Range from EUV to Soft X-ray.- Chapter 45. Proposal of Hypereutectic AlSi-based Multilayer Mirrors forWavelength between 20 nm and 25 nm.- Chapter 46. Irradiation damage test of Mo/Si, Ru/Si and Nb/Si multilayers using the soft X-ray laser built at QST.- Chapter 47. Mo/Si Multilayer-Coated Photodiode Detector for Monitoring Soft X-Ray Laser Intensity .- Chapter 48. Analysis of Reflection Signal from EUV Multilayer Mirror for Irradiation Induced Damage Study.- Chapter 49. Investigation of surface excitation effect for ablation of 4H-SiC substrate using double-pulse beam.- Chapter 50. Ablation of LiF and CsI by EUV Nanosecond Laser Pulse.- Chapter 51. Laser-Induced Damage on Silica Glasses by Irradiation of Soft X-Ray Laser Pulse.- Part 7: EUV Lithography (7 papers).- Chapter 52. Performance of over 100W HVM LPP-EUV light source (Invited).- Chapter 53. EUV free-electron laser requirements for semiconductor manufacturing (Invited).- Chapter 54. Coherent Lithography with Table Top Soft X-ray Lasers: Latest Achievements and Prospects (Invited).- Chapter 55. A 10-Hz short pulse CO2 laser system for extreme ultraviolet source.- Chapter 56. Modeling of Ablation of the Target Material for the Plasma for Coherent and Incoherent EUV Sources.- Chapter 57. Surface Layer Modification of Metal Nanoparticle Supported Polymer by Irradiation of Laser Driven Extreme Ultraviolet Light.- Chapter 58. Micrometer-scaled photo direct machining of polydimethylsiloxane using laser plasma EUV radiations.- Part 8: Instrumentation for Advanced X-Ray Applications (5 papers).- Chapter 59. Broadband High-Resolution Imaging Spectrometers for the soft X-Ray Range.- Chapter 60. Development of soft X-ray microscope in Water-window using laser produced plasma light source.- Chapter 61. Development of time-resolved small-angle X-ray scattering system using soft-X-ray laser.- Chapter 62. Development of a High Repetition Rate and High Pulse Energy Nd:YAG MOPA Laser System.- Chapter 63. Evaluation of a flat-field grazing incidence spectrometer for highly charged ion plasma emission in 110 nm.

Erscheinungsdatum
Zusatzinfo XXXV, 421 p. 222 illus., 128 illus. in color.
Verlagsort Cham
Sprache englisch
Maße 155 x 235 mm
Gewicht 858 g
Themenwelt Naturwissenschaften Physik / Astronomie Atom- / Kern- / Molekularphysik
Naturwissenschaften Physik / Astronomie Elektrodynamik
Naturwissenschaften Physik / Astronomie Optik
Technik Elektrotechnik / Energietechnik
Schlagworte 15th International Conference on X-Ray Lasers • Applications of Soft x-ray Lasers • Coherent x-rays • EUV Lithography • ICXRL 2016 proceedings • inertial confinement fusion • Plasma-based x-ray Lasers
ISBN-10 3-319-89228-2 / 3319892282
ISBN-13 978-3-319-89228-3 / 9783319892283
Zustand Neuware
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