x射线自由电子激光器:科学目标和机器含义

Physics and experiments with future linear e+ e- colliders Pub Date : 2001-09-12 DOI:10.1063/1.1394304

J. Arthur

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引用次数: 2

摘要

现在正在设计的自由电子激光器将在波长低至1左右的情况下工作。[1]高增益、单通FEL过程的物理学要求在10-20 GeV范围内的极其明亮的电子脉冲。这种电子亮度应该可以通过使用rf光电阴极源和线性加速器来实现，例如tev范围的线性正电子对撞机的初始加速阶段。产生的x射线FEL辐射将具有独特的性质。•FEL的峰值强度和峰值亮度将比任何其他光源高许多个数量级。•脉冲长度将小于1皮秒，比任何其他明亮光源(如同步加速器)都要短几个数量级。•FEL辐射将具有完全的横向相干性和等于109或更高的简并参数(光子/相干体积)。没有其他源能产生简并参数显著大于1的硬x辐射。这些属性…

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X-ray free-electron lasers: Scientific goals and machine implications

Free electron lasers are now being designed which will operate at wavelengths down to about 1. [1] The physics of the high-gain, single pass FEL process requires extremely bright electron pulses in the 10–20 GeV range. This electron brightness should be achievable using an RF-photocathode source and a linear accelerator, such as the initial acceleration stage of a TeV-range linear electron-positron collider. The x-ray FEL radiation produced will have unique properties. In particular: • The FEL peak intensity and peak brightness will be many orders of magnitude higher than can be produced by any other source. • The pulse length will be less than 1 picosecond, orders of magnitude shorter than can be achieved with any other bright source such as a synchrotron. • The FEL radiation will have full transverse coherence and a degeneracy parameter (photons/coherence volume) equal to 109 or more. No other source can produce hard x-radiation with a degeneracy parameter significantly greater than 1. These properties ...

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Physics and experiments with future linear e+ e- colliders

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