Wang, X.J.
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| MOPP031 | Experimental Characterization of the Seeded FEL Amplifier at the BNL SDL | 98 |
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Funding: Work supported by the Office of Naval Research. A laser seeded near IR FEL amplifier experiment was initiated at the BNL SDL [1] to explore various schemes of FEL efficiency improvement and generation of short Rayleigh length (SRL) FEL output. The FEL achieved first SASE lasing at 0.8 μm on May 6, 2005. The experimental characterization of the laser seeded FEL output power, spectrum and transverse mode structure evolution will be presented. [1] A. Doyuran et al., PRSTAB, Vol. 7, 050701 (2004). |
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| MOOC003 | Radiation Spectrum Statistics in a High-Gain Free-Electron Laser at 266 nm | 220 |
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Funding: The manuscript has been authored by Brookhaven Science Associates, LLC under Contract No. DE-AC02-98CH1-886 with the U.S. Department of Energy. We discuss analysis of an experiment with High-Gain Harmonic Generation Free Electron Laser at BNL (DUV FEL). The tunability concept [1] of a seeded FEL with a fixed seed wavelength has been verified experimentally. During the experiment we recorded about 200 radiation spectra corresponding to different energy chirps in the electron beam. We have analyzed this set of spectral data to obtain properties of HGHG radiation. Correlations and trends in the radiation spectrum at 266 nm have been observed and studied. [1] T. Shaftan and L.H. Yu, Phys. Rev. E 71, 046501 (2005) |
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| TUPP044 | Short Rayleigh Range Free Electron Laser Amplifiers | |
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An important requirement for a high average power laser system is a manageable power density on the first optical element. One possibility to achieve this is a single pass amplifier which generates a short Rayleigh range (SRL) light beam. We present design parameters and calculated performances for several SRL configurations. These include a simulation of the optically guided (pinched) MW class FEL [1], the scalloped beam FEL amplifier [2] and high gain TOK amplifiers we propose to explore at our SDL facility. [1] P. Sprangle et al. , IEEE J. of Quantum Electronics, Vol. 40, No. 12, 1739, 2004 [2] D. Nguyen, private communication, 2005. |
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| TUPP046 | Design Study of a Compact Megawatt Class FEL Amplifier Based on the VISA Undulator | 320 |
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The design of a Short Rayleigh Length (SRL) FEL amplifier based on the strong focusing VISA undulator [1] is presented in this study. The SRL FEL amplifier will be operating in the IR (0.8 - 1 μm), and consists of a two-meter VISA undulator with a peak seed laser power of about 1 kW. The FEL power and transverse mode evolution along the undulator were investigated using the three-dimensional numerical code GENESIS1.3. The evolution of the FEL output from the undulator exit to the first downstream optics is also studied. The possibility of using the proposed amplifier for a two-stage cascaded HGHG FEL [2] at the BNL SDL is also explored. The design parameters and the numerical results will be presented. [1] R. Carr et al., PRSTAB, Vol. 4, 122402 (2001). [2] J. Wuard and L.H. Yu, NIMA 475, 104 (2001). |
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| THPP054 | Physics and Engineering Issues of PPI (Pohang Photo-Injector) for PAL XFEL | 600 |
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Funding: Work supported by the MOST and the POSCO. The PAL XFEL, an X-Ray Free Electron Laser (XFEL) project based on the Self-Amplified Spontaneous Emission (SASE), is under progress at the Pohang Accelerator Laboratory (PAL). Successful completion of the project is expected to impose stringent requirements on the beam qualities such as the normalized emittance (< 1.2 mm-mrad) and the un-correlated energy spread (~10(-5)). This requires careful and systematic planning for ensuring the generation and the preservation of high-brightness beams in the whole machine. The PPI (Pohang Photo-Injector) is to achieve these requirements with high reliability and stability. In this article, we discuss various physics and engineering issues involved in the design and construction of the PPI. We also report on the R&D status of photo-cathode RF gun at the PAL. |
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| THPP032 | An Experimental Test of Superradiance in a Single Pass Seeded FEL | 526 |
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Funding: Work suppoted by the Brookhaven National Lab and Office of Naval Research The SDL facility at BNL[1] is an excellent platform to explore some of the recent ideas related to superradiance in a seeded single pass FEL. At the SDL facility there is an operating FEL with a Ti:Sapphire seed laser and a high brightness e-beam with an energy up to 250 MeV. Seeding may be realized with pulses shorter than the e-beam bunch length to induce the superradiant regime. A status report concerning this experiment will be presented. [1] A. Doyuran et al., PRSTAB, Vol. 7, 050701 (2004). |
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| THPP066 | Experimental Studies of Temporal Electron Beam Shaping at the DUV-FEL Accelerator | 632 |
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Funding: Work supported by DOE contracts DE-AC02-76SF00515 and DE-AC02-98CH10886 The photoinjectors for future short wavelength high brightness accelerator driven light sources need to produce an electron beam with ultra-low emittance. At the DUV-FEL facility at BNL, we studied the effect of longitudinally shaping the photocathode laser pulses on the electron beam dynamics. We report on measurements of transverse and longitudinal electron beam emittance and comparisons of the experimental results with simulations. |
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