X-Ray Lasers 2016
-15%
portes grátis
X-Ray Lasers 2016
Proceedings of the 15th International Conference on X-Ray Lasers
Daido, Hiroyuki; Kato, Yoshiaki; Bulanov, Sergei V.; Kawachi, Tetsuya
Springer International Publishing AG
06/2019
421
Mole
Inglês
9783319892283
15 a 20 dias
940
Descrição não disponível.
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.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
ICXRL 2016 proceedings;15th International Conference on X-Ray Lasers;coherent x-rays;plasma-based x-ray lasers;applications of soft x-ray lasers;EUV lithography;inertial confinement fusion
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.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
