In Soo Ko scite author profile

The first experimental study is presented of a corrugated wall device that uses wakefields to remove a linear energy correlation in a relativistic electron beam (a "dechirper"). Time-resolved measurements of both longitudinal and transverse wakefields of the device are presented and compared with simulations. This study demonstrates the feasibility to employ a dechirper for precise control of the beam phase space in the next generation of free-electron-lasers.

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Construction and Commissioning of PAL-XFEL Facility

Kang

Heo

et al. 2017

Applied Sciences

115

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Using irregularly spaced current peaks to generate an isolated attosecond X-ray pulse in free-electron lasers

Tanaka

Parc

Kida

et al. 2016

J Synchrotron Radiat

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A method is proposed to generate an isolated attosecond X-ray pulse in freeelectron lasers, using irregularly spaced current peaks induced in an electron beam through interaction with an intense short-pulse optical laser. In comparison with a similar scheme proposed in a previous paper, the irregular arrangement of current peaks significantly improves the contrast between the main and satellite pulses, enhances the attainable peak power and simplifies the accelerator layout. Three different methods are proposed for this purpose and achievable performances are computed under realistic conditions. Numerical simulations carried out with the best configuration show that an isolated 7.7 keV X-ray pulse with a peak power of 1.7 TW and pulse length of 70 as can be generated. In this particular example, the contrast is improved by two orders of magnitude and the peak power is enhanced by a factor of three, when compared with the previous scheme.

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Isolated terawatt attosecond hard X-ray pulse generated from single current spike

Shim

Parc

Kumar

et al. 2018

Sci Rep

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Isolated terawatt (TW) attosecond (as) hard X-ray pulse is greatly desired for four-dimensional investigations of natural phenomena with picometer spatial and attosecond temporal resolutions. Since the demand for such sources is continuously increasing, the possibility of generating such pulse by a single current spike without the use of optical or electron delay units in an undulator line is addressed. The conditions of a current spike (width and height) and a modulation laser pulse (wavelength and power) is also discussed. We demonstrate that an isolated TW-level as a hard X-ray can be produced by a properly chosen single current spike in an electron bunch with simulation results. By using realistic specifications of an electron bunch of the Pohang Accelerator Laboratory X-ray Free-Electron Laser (PAL-XFEL), we show that an isolated, >1.0 TW and ~36 as X-ray pulse at 12.4 keV can be generated in an optimized-tapered undulator line. This result opens a new vista for current XFEL operation: the attosecond XFEL.

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In Soo Ko

Hard X-ray free-electron laser with femtosecond-scale timing jitter

Experimental Demonstration of Energy-Chirp Control in Relativistic Electron Bunches Using a Corrugated Pipe

Construction and Commissioning of PAL-XFEL Facility

Using irregularly spaced current peaks to generate an isolated attosecond X-ray pulse in free-electron lasers

Isolated terawatt attosecond hard X-ray pulse generated from single current spike

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