Your search keyword '"x-ray fel"' showing total 7 results

1. Timing jitter studies of the SwissFEL Test Injector drive laser.

Author

Csatari Divall, Marta, Kaiser, Maik, Hunziker, Stephan, Vicario, Carlo, Beutner, Bolko, Schietinger, Thomas, Lüthi, Matthias, Pedrozzi, Marco, and Hauri, Christoph P.

Subjects

*TIMING jitter, *X-rays, *OPTICAL parametric oscillators, *PARTICLE beam bunching, *LINEAR accelerators, *PHASE noise measurement, *PULSED lasers

Abstract

Abstract: To produce short X-ray pulses for SwissFEL 1 [1] FEL: Free Electron Laser; SITF: SwissFEL Injector Test Facility; OPCPA: Optical Parametric Chirped Pulse Amplifier; PLL: Phase Locked Loop. , it is necessary to compress the electron bunches by a factor of 300, down to sub-fs for the attosecond operational modes. To achieve stable FEL output accurate timing of the initial electron injection at the main linear accelerator is necessary. Tolerance studies show, that to reach the final performance goals, less than 40fs relative rms jitter is required from the electron gun, relative to the reference. Here we present independent residual RF phase noise measurements of the laser oscillators, showing an exceptional ~30fs integrated rms jitter. Moreover timing studies at the SwissFEL Injector Test Facility, based on charge detection at the sharp rising edge of the Schottky-scan were performed allowing for systematic correlation studies and showing a residual jitter of ~150fs at 10Hz from the pulsed laser system and beam transport respect to the reference. For future development, available relative jitter measurement techniques for pulsed laser systems will be reviewed and their applicability for laser arrival time monitoring and feedback for FEL applications will be discussed. [Copyright &y& Elsevier]

Published

2014

2. Design studies of a continuous-wave normal conducting buncher for European X-ray Free Electron Laser.

Author

Lal, Shankar, Paramonov, V., Qian, H., Shaker, H., Shu, G., Chen, Ye, and Stephan, F.

Subjects

*FREE electron lasers, *BEAM dynamics, *X-rays, *EXPERIMENTAL design

Abstract

A three-cell 1.3 GHz, Normal Conducting (NC) buncher is designed for a possible future upgrade of the European X-ray Free Electron Laser (Eu-XFEL) to operate in a continuous-wave (CW)/ long pulse (LP) mode. The RF geometry of the buncher is optimized for high shunt impedance, large mode separation as well as multipacting free in the operation range. The nominal buncher voltage is 400 kV with an RF power dissipation of 14 kW, and its shunt impedance is ∼ 50% higher than existing CW bunchers. The RF power coupler cell is optimized for field symmetry to minimize coupler kick effect on beam dynamics. The thermal load due to RF power dissipation is analyzed using Multiphysics simulations in CSTMWS and a cooling scheme is designed. [ABSTRACT FROM AUTHOR]

Published

2022

3. TESLA cavity modeling and digital implementation in FPGA technology for control system development

Author

Czarski, Tomasz, Pozniak, Krzysztof T., Romaniuk, Ryszard S., and Simrock, Stefan

Subjects

*ELECTROMECHANICAL analogies, *REAL-time control, *CAVITY resonators, *ELECTRONIC systems

Abstract

Abstract: The electromechanical model of the TESLA cavity has been implemented in FPGA technology for real-time testing of the control system. The model includes Lorentz force detuning and beam loading effects. Step operation and vector stimulus operation modes are applied for the evaluation of a FPGA cavity simulator operated by a digital controller. The performance of the cavity hardware model is verified by comparing with a software model of the cavity implemented in the MATLAB system. The numerical aspects are considered for an optimal DSP calculation. Some experimental results are presented for different cavity operational conditions. [Copyright &y& Elsevier]

Published

2006

4. Design considerations for the LCLS

Author

Limborg, C.

Subjects

*FREE electron lasers, *LIGHT sources

Abstract

The Linac Coherent Light Source (LCLS) is a single pass X-ray FEL designed to produce very short (∼200 fs) and very high power (8 GW), short wavelength (1.5 A˚) pulses. The new facility to be built at SLAC as a multiple laboratory collaboration will have peak brilliance performance exceeding those obtained presently in third generation synchrotron radiation sources by 10 orders of magnitude. In this paper, we review the accelerator physics design challenges. We report on advances made in photo-injectors. We discuss the issues of Coherent Synchrotron Radiation produced in the bunch compressors and undulator vacuum chamber wakefields. [Copyright &y& Elsevier]

Published

2003

5. Some issues and subtleties in numerical simulation of X-ray FELs

Author

Fawley, W.M.

Subjects

*FREE electron lasers, *NUMERICAL analysis

Abstract

Part of the overall design effort for X-ray FELs such as the LCLS and TESLA projects has involved extensive use of particle simulation codes to predict their output performance and underlying sensitivity to various input parameters (e.g. electron beam emittance). This paper discusses some of the numerical issues that must be addressed by simulation codes in this regime. We first give a brief overview of the standard approximations and simulation methods adopted by time-dependent (i.e. polychromatic) codes such as ginger (LBNL Report No. LBNL-49625, 2002), genesis (Nucl. Instr. and Meth. A 429 (1999) 243), and fast3d (Nucl. Instr. and Meth. A 429 (1999) 233), including the effects of temporal discretization and the resultant limited spectral bandpass, and then discuss the accuracies and inaccuracies of these codes in predicting incoherent spontaneous emission (i.e. the extremely low gain regime). [Copyright &y& Elsevier]

Published

2003

6. Longitudinal phase space improvement of a continuous-wave photoinjector toward X-ray free-electron laser application.

Author

Zhao, Sheng, Huang, Senlin, Lin, Lin, Liu, Yunqi, Jia, Haoyan, Qin, Weilun, Quan, Shengwen, and Liu, Kexin

Subjects

*X-ray lasers, *FREE electron lasers, *ELECTRON beams, *ELECTRON sources, *PHASE space

Abstract

The electron source still remains a major challenge for continuous-wave (CW) X-ray free-electron lasers (FELs). In this paper, we study the feasibility of an injection line based on a DC and superconducting radio-frequency (SRF) combined photocathode injector. We present a detailed investigation on the longitudinal phase space evolution of the electron beam along the injection line. We also analyze the main issues determining the high-order energy spread and current skewness. Based on the analysis, we propose to use a harmonic cavity as the buncher for the injection line. Simulation shows that an extracted electron beam with a normalized RMS emittance of 0.37 μ m, an RMS bunch length of 1.0 mm, a high-order RMS energy spread of 2.75 keV, and a current skewness of 0 can be obtained at the bunch charge of 100 pC. This study is meaningful to the design of the injection lines for short-wavelength CW FELs, including those based on normal-conducting very-high-frequency (VHF) guns or DC guns. [ABSTRACT FROM AUTHOR]

Published

2021

7. Space charge and quantum corrections in free electron laser evolution.

Author

Dattoli, Giuseppe, Fares, Hesham, and Licciardi, Silvia

Subjects

*SPACE charge, *FREE electron lasers

Abstract

Effects producing gain dilution in Free Electron Laser devices are well documented. We develop here a unified point of view allowing the introduction of space charge effects, along with the gain deterioration due to inhomogeneous broadening contributions and discuss the relevant interplay. We outline future developments and comment on the possibility of including in the formalism effects of quantum mechanical nature. [ABSTRACT FROM AUTHOR]

Published

2020