Add to ORKGThough free-electron lasers have long had the potential for high average power, only recently has significant progress towards this goal been evident. This paper will summarize some of the issues that all high average power free-electron lasers must contend with and will show how researchers have addressed these problems as encountered in four different approaches. Progress and problems in each of these programs will be summarized and the paths towards even higher power will be discussed
A key technology issue on the path to high-power FEL operation is the demonstration of reliable, hig...
With intensities 10(8)-10(10) times greater than other laboratory sources, X-ray free-electron laser...
Free-electron lasers (FELs) are lasers that use an electron beam from an accelerator to produce wide...
A review of experimental and theoretical concepts of a free electron laser is given. The possibiliti...
The impact of femtosecond lasers across science and engineering has been significant. The one area w...
High average-power free-electron lasers may be useful for pumping high peak-power solid-state laser-...
Vacuum electronic sources have shown marked improvement since the invention of the magnetron before ...
Material processing with lasers has grown greatly in the previous decade, with annual sales in exces...
Material processing with lasers has grown greatly in the previous decade, with annual sales in exces...
A Free Electron Laser (FEL) called the IR Demo is operational as a user facility at Thomas Jefferson...
High power lasers suffer from being large and inefficient. This paper will review the present status...
The Free-electron laser (FEL) is a source of coherent electromagnetic radiation based on a relativis...
Free Electron Lasers consists of 10 chapters, which refer to fundamentals and design of various free...
The Free-electron laser (FEL) is a source of coherent electromagnetic radiation based on a relativis...
Simulations and theoretical analysis are used to study the development of high-average-power free el...
A key technology issue on the path to high-power FEL operation is the demonstration of reliable, hig...
With intensities 10(8)-10(10) times greater than other laboratory sources, X-ray free-electron laser...
Free-electron lasers (FELs) are lasers that use an electron beam from an accelerator to produce wide...
A review of experimental and theoretical concepts of a free electron laser is given. The possibiliti...
The impact of femtosecond lasers across science and engineering has been significant. The one area w...
High average-power free-electron lasers may be useful for pumping high peak-power solid-state laser-...
Vacuum electronic sources have shown marked improvement since the invention of the magnetron before ...
Material processing with lasers has grown greatly in the previous decade, with annual sales in exces...
Material processing with lasers has grown greatly in the previous decade, with annual sales in exces...
A Free Electron Laser (FEL) called the IR Demo is operational as a user facility at Thomas Jefferson...
High power lasers suffer from being large and inefficient. This paper will review the present status...
The Free-electron laser (FEL) is a source of coherent electromagnetic radiation based on a relativis...
Free Electron Lasers consists of 10 chapters, which refer to fundamentals and design of various free...
The Free-electron laser (FEL) is a source of coherent electromagnetic radiation based on a relativis...
Simulations and theoretical analysis are used to study the development of high-average-power free el...
A key technology issue on the path to high-power FEL operation is the demonstration of reliable, hig...
With intensities 10(8)-10(10) times greater than other laboratory sources, X-ray free-electron laser...
Free-electron lasers (FELs) are lasers that use an electron beam from an accelerator to produce wide...