All Stories

  1. The FERMI free-electron lasers
  2. Experimental Demonstration of Enhanced Self-Amplified Spontaneous Emission by an Optical Klystron
  3. Laser heater commissioning at an externally seeded free-electron laser
  4. Control of the Polarization of a Vacuum-Ultraviolet, High-Gain, Free-Electron Laser
  5. Mapping the transverse coherence of the self amplified spontaneous emission of a free-electron laser with the heterodyne speckle method
  6. Impact of Non-Gaussian Electron Energy Heating upon the Performance of a Seeded Free-Electron Laser
  7. Large-bandwidth two-color free-electron laser driven by a comb-like electron beam
  8. Experimental Demonstration of Electron Longitudinal-Phase-Space Linearization by Shaping the Photoinjector Laser Pulse
  9. Chirp control in a seeded Free-Electron Laser
  10. Coherent Pulses from a Seeded Free-Electron Laser in the Extreme Ultraviolet
  11. Two Color FEL Driven by a Comb-like Electron Beam Distribution
  12. Status and achievements at FERMI@Elettra: the first double cascade seeded EUV-SXR FEL facility open to users
  13. Two-colour generation in a chirped seeded free-electron laser: a close look
  14. Observation of Time-Domain Modulation of Free-Electron-Laser Pulses by Multipeaked Electron-Energy Spectrum
  15. Spectral and intensity diagnostics of the SPARC free-electron-laser
  16. Chirped Seeded Free-Electron Lasers: Self-Standing Light Sources for Two-Color Pump-Probe Experiments
  17. Superradiant Cascade in a Seeded Free-Electron Laser
  18. FERMI Demonstrates First Seeded Free Electron Laser Working in Double-Stage Cascaded Configuration
  19. Focusing properties of linear undulators
  20. Erratum: Transverse emittance preservation during bunch compression in the Fermi free electron laser [Phys. Rev. ST Accel. Beams 15 , 020701 (2012)]
  21. High-Order-Harmonic Generation and Superradiance in a Seeded Free-Electron Laser
  22. Energy phase correlation and pulse dynamics in short bunch high gain FELs
  23. Publisher’s Note: Transverse emittance preservation during bunch compression in the Fermi free electron laser [Phys. Rev. ST Accel. Beams 15 , 020701 (2012)]
  24. Transverse emittance preservation during bunch compression in the Fermi free electron laser
  25. Phase space analysis of velocity bunched beams
  26. Second Workshop on High Harmonic Seeding for Present and Future Short wavelength Free-Electron Lasers
  27. FERMI@Elettra, a seeded free electron laser source for a broad scientific user program
  28. Analysis of single-spike FEL visible radiation from three-dimensional and realistic beams
  29. Comparative study of nonideal beam effects in high gain harmonic generation and self-seeded free electron lasers
  30. Free electron laser for electron cyclotron heating in plasma fusion: Is there a renewed interest?
  31. Workshop on High-Harmonic Seeding for Present and Future Short Wavelength Free-Electron Lasers
  32. The effect of shot noise on the start up of the fundamental and harmonics in free-electron lasers
  33. Compression of XUV FEL pulses in the few-femtosecond regime
  34. Higher-order harmonics coupling in different free-electron laser codes
  35. SUMMARY OF WORKING GROUP 3: NEW CHALLENGES IN THEORY AND MODELING
  36. FIRST SIMULATIONS RESULTS ON LASER PULSE JITTER AND MICROBUNCHING INSTABILITY AT SPARXINO
  37. NON-LINEAR EVOLUTION OF SHORT PULSES IN FEL CASCADED UNDULATORS AND THE FEL HARMONIC CASCADE
  38. NON LINEAR EVOLUTION OF SHORT PULSES IN FEL CASCADED UNDULATORS AND THE FEL HARMONIC CASCADE
  39. "NEW CHALLENGES IN THEORY AND MODELING" SUMMARY FOR WORKING GROUP THREE
  40. FIRST SIMULATIONS RESULTS ON LASER PULSE JITTER AND MICROBUNCHING INSTABILITY AT SPARXINO
  41. Watanabe et al. Reply:
  42. Erratum: Experimental Characterization of Superradiance in a Single-Pass High-Gain Laser-Seeded Free-Electron Laser Amplifier [Phys. Rev. Lett.PRLTAO0031-9007 98 , 034802 (2007)]
  43. Experimental Characterization of Superradiance in a Single-Pass High-Gain Laser-Seeded Free-Electron Laser Amplifier
  44. Comparison between sparc e-meter measurements and simulations
  45. Free-electron laser dynamics in storage ring with a low emittance and momentum compaction factor configuration
  46. The free-electron laser harmonic cascade
  47. Overview of CSR codes
  48. Nonlinear pulse evolution in seeded free-electron laser amplifiers and in free-electron laser cascades
  49. Dynamics and stabilization of the Elettra storage-ring free-electron laser
  50. Synchronization of ELETTRA storage-ring light sources with an ultrafast CR:LISAF laser
  51. Pulse propagation and supermodes in Optical-Klystron FEL oscillators
  52. Saturation and electron-beam lifetime in a storage ring free-electron laser
  53. Semi-analytical models for saturation in optical-klystron FEL devices
  54. Developments on the EUFELE**Partly funded under EC contract No. HPRI-CT-2001-50025. project at ELETTRA
  55. TREDI simulations for high-brilliance photoinjectors and magnetic chicanes
  56. SIMULATION CODES FOR HIGH BRIGHTNESS ELECTRON BEAM EXPERIMENTS
  57. TREDI SIMULATIONS FOR HIGH-BRILLIANCE PHOTO-INJECTORS
  58. Simulation codes for high brightness electron beam free-electron laser experiments
  59. MOPA optical klystron FELs and coherent harmonic generation
  60. Self-consistent harmonic generation in storage ring FELs
  61. Bunching and exotic undulator configurations in SASE FELs
  62. Radio-frequency photocathode guns triggered by free electron laser light
  63. Self-consistent harmonic generation in storage ring FELs
  64. MOPA optical klystron FELs and coherent harmonic generation
  65. Bunching and exotic undulator configurations in SASE FELs
  66. LASER HEATING AND MICROWAVE INSTABILITY IN THE SUPER-ACO FEL
  67. Two harmonic undulators and harmonic generation in high gain free electron lasers
  68. Interplay between electron beam instabilities and storage ring FEL dynamics
  69. Pulse propagation in storage ring free electron laser devices and longitudinal instabilities
  70. Operation of the European storage ring FEL at ELETTRA down to 190nm
  71. Super-ACO free-electron laser (FEL) operation with a reduced momentum compaction factor
  72. Operation and performance of a free electron laser oscillator down to 190 nm
  73. UV/VUV FREE ELECTRON LASER OSCILLATORS AND APPLICATIONS IN MATERIALS SCIENCE
  74. Extreme ultraviolet (EUV) sources for lithography based on synchrotron radiation
  75. Completion of the first phase of development of the European UV/VUV free-electron laser at Elettra
  76. The European UV/VUV storage ring FEL at ELETTRA: first operation and future prospects
  77. Effects of prepoling and polarization on photoemission from ferroelectric ceramics
  78. TREDI: fully 3D beam dynamics simulation of RF guns, bendings and FELs
  79. Free electron laser small signal dynamics and inclusion of electron-beam energy phase correlation
  80. Energy phase correlation effects on FEL dynamics and coherent harmonic generation: a critical review
  81. 3D simulation of space-charge—dominated beam dynamics
  82. A robust and powerful green light photoemission source: The ferroelectric ceramics
  83. Symmetric decomposition of exponential operators and evolution problems
  84. Symmetric decomposition of exponential operators and evolution problems
  85. Preliminary observation of electron emission from ferroelectric ceramics excited by a 532 nm −30 picosecond laser pulse
  86. A Padè Type Analysis of the Harmonic Generation Mechanism in Free Electron Lasers
  87. FEL dynamics, electron-beam bunching and prebunching
  88. A simple model of gain saturation in high gain single pass free electron lasers
  89. Compton backscattering induced by FEL photons: A general treatment
  90. Self-consistent three-dimensional RF-gun dynamics integration based on the Lienard-Wiechert retarded potentials
  91. Compton backscattering of free-electron laser photons and generation of high-energy monochromatic photon fluxes
  92. High gain FEL regime, inhomogenous broadening effects: comparison between numerical and analytical results
  93. Saturation and pulsed FEL dynamics
  94. Compton backscattering of intracavity storage ring free-electron laser radiation
  95. The pulse propagation problem in free electron lasers: Gain parametrization formulae
  96. Wave-guide free electron laser: gain inhomogeneous broadening and saturation
  97. Storage-Ring FEL longitudinal dynamics
  98. Compton backscattering of intracavity storage ring free-electron laser radiation
  99. Free electron laser saturation: An analytical description
  100. Free electron laser dynamics, evolution of the bunching coefficients, and coherent harmonic generation
  101. A model for the saturation of a storage ring free electron laser
  102. Design considerations on a high-power VUV FEL
  103. Theory of the longitudinal dynamics of a storage ring FEL
  104. The tandem FEL dynamic behavior
  105. Split-operator technique and solution of Liouville propagation equations
  106. Analysis of free‐electron‐laser‐saturated behavior using one‐ and three‐dimensional models
  107. Parametrization of the electron beam induced energy spread in free electron laser dynamics
  108. Dynamical behavior of a free-electron laser operating with a prebunched electron beam
  109. Saturation dynamics in FEL and optical-klystron FEL devices
  110. Analytical and numerical computation of undulator brightness: a comparison
  111. Inhomogeneous broadening effects in a waveguide free-electron laser
  112. Design elements of a high-power VUV free electron laser
  113. Analysis of the optical-klystron gain depression induced by inhomogeneous broadening effects
  114. Unified view of free-electron laser dynamics and of higher-harmonics electron bunching
  115. Saturation and cavity-loss optimization in free-electron lasers
  116. Analytic and numerical study of two-frequency undulator radiation
  117. VI Theory of Compton Free Electron Lasers
  118. Laser Spectroscopy of Muonic Hydrogen
  119. A note on RF photocathode guns triggered by synchrotron light
  120. Exponential parametrization of the Cabibbo-Kobayashi-Maskawa matrix and eigenstates of weak interactions
  121. Linear undular brightness: Sextupolar magnetic-field contributions and higher-orders energy corrections for low-energy electron beams
  122. Exact treatment of spontaneous emission in helical and solenoidal magnetic field
  123. Linear undulator brightness: inclusion of low energy corrections and of betatron motion
  124. Gain saturation in free-electron lasers
  125. Compact FEL activity at the ENEA-Frascati Research Center
  126. Gain saturation in bunched free-electron lasers
  127. Intensity saturation mechanism in free-electron lasers
  128. Linear undulator brightness: Exact analytical treatment
  129. Towards a wave theory of charged-beam propagation
  130. Linear undulator brightness: Inclusion of sextupolar magnetic-field contributions and of higher-order energy corrections
  131. Formal quantum theory of electronic rays
  132. Optical properties of helical undulators
  133. Simple model of gain saturation in free-electron lasers
  134. Towards a generalized version of the Madey's theorem
  135. FEL gain parametrization
  136. A simple analysis of the MOPA FEL Stanford experiment
  137. FEL time-evolution operator
  138. Cavity length adjustment and output FEL intensity optimization
  139. Recent results of the ENEA-Frascati undulator FEL experiment
  140. Spectral properties of the undulator magnets radiation: Analytical and numerical treatment
  141. Theory of generalized Bessel functions
  142. FEL gain in the pulsed regime: a comparison between numerical and analytical results
  143. Parametrizing the gain dependences in a single passage FEL operating with moderate current e-beams
  144. Storage ring FEL dynamics: an analytical treatment
  145. Synchrotron radiation from magnetic undulators as a prospective diagnostic tool
  146. Efficient photoemission from robust ferroelectric ceramics
  147. Beam dynamics studies for the Sparc project
  148. Start to end simulations for the SPARX proposal
  149. Code comparison for simulations of photo-injectors
  150. Recent Results Of The ENEA-Frascati Undulator FEL Experiment
  151. Start to End Simulation for the SPARX Project
  152. Extreme ultraviolet (EUV) sources based on synchrotron radiation