Your search keyword '"Prach Boonpornprasert"' showing total 6 results

1. Transverse beam matching under the influence of space charge

Author

G. Kourkafas, T. Rublack, Yves Renier, Quantang Zhao, M. Bakr Arby, James Good, G. Asova, Carlos Hernandez-Garcia, Barbara Marchetti, O. Lishilin, Grygorii Vashchenko, Frank Stephan, Holger Huck, Aleksandr Matveenko, D. Malyutin, David Melkumyan, Davit Kalantaryan, M. Otevrel, Prach Boonpornprasert, Matthias Gross, and Mikhail Krasilnikov

Subjects

010302 applied physics, Physics, Nuclear and High Energy Physics, 010308 nuclear & particles physics, business.industry, DESY, Space (mathematics), 01 natural sciences, Space charge, Transverse plane, Optics, Lattice (order), Phase space, 0103 physical sciences, Physics::Accelerator Physics, Particle beam, business, Instrumentation, Beam (structure)

Abstract

The matching of a particle beam to specific transverse parameters, imposed by various operational, functional and diagnostic reasons, is an essential procedure in most types of accelerators. While well-established methods can easily match beams of negligible self fields, their accuracy is significantly reduced in the presence of strong space-charge forces. In a pursuit of time-efficient matching solutions for space-charge influenced beams, two approaches are demonstrated in this paper: a faster and more approximative one for symmetric beam transport along periodic and dense lattices, and a more analytic one for broader beam and lattice conditions. Beam dynamics simulations and experimental measurements are used to validate the performance of the suggested methods for the matching requirements of the transverse phase–space tomography at the Photo Injector Test Facility at DESY, Zeuthen site (PITZ).

Published

2017

2. Spatio-temporal shaping of photocathode laser pulses for linear electron accelerators

Author

T Kozak, Ye Chen, Yves Renier, Holger Huck, A. K. Potemkin, Mikhail Krasilnikov, Frank Stephan, Anne Oppelt, E. I. Gacheva, V V Zelenogorskii, Alexey V. Andrianov, David Melkumyan, James Good, Houjun Qian, Efim Khazanov, Matthias Gross, O. Lishilin, Davit Kalantaryan, M Felber, Xin Li, S. Yu. Mironov, T. Rublack, Igor Isaev, and Prach Boonpornprasert

Subjects

Materials science, business.industry, Bragg's law, General Physics and Astronomy, DESY, Electron, Laser, 01 natural sciences, Electromagnetic radiation, Photocathode, Linear particle accelerator, Cathode, law.invention, 010309 optics, Optics, law, 0103 physical sciences, 010306 general physics, business

Published

2017

3. Passive Ballistic Microbunching of Nonultrarelativistic Electron Bunches Using Electromagnetic Wakefields in Dielectric-Lined Waveguides

Author

Yves Renier, Bagrat Grigoryan, M. Krasilinikov, Matthias Groß, Anne Oppelt, Igor Zagorodnov, Gayane Amatuni, Frank Stephan, Francois Lemery, James Good, Ye Chen, O. Lishilin, Houjun Qian, Gregor Loisch, S. Philipp, Prach Boonpornprasert, and Philippe Piot

Subjects

Accelerator Physics (physics.acc-ph), Physics, business.industry, Ultrafast electron diffraction, FOS: Physical sciences, General Physics and Astronomy, Electron, 01 natural sciences, Electromagnetic radiation, law.invention, Optics, law, Modulation, Picosecond, 0103 physical sciences, Physics::Accelerator Physics, Physics - Accelerator Physics, ddc:530, 010306 general physics, business, Waveguide, Excitation, Beam (structure)

Abstract

Physical review letters 122(4), 044801 (2019). doi:10.1103/PhysRevLett.122.044801, Temporally modulated electron beams have a wide array of applications ranging from the generation of coherently enhanced electromagnetic radiation to the resonant excitation of electromagnetic wakefields in advanced-accelerator concepts. Likewise producing low-energy ultrashort microbunches could be useful for ultrafast electron diffraction and new accelerator-based light-source concepts. In this Letter we propose and experimentally demonstrate a passive microbunching technique capable of forming a picosecond bunch train at ∼6 MeV. The method relies on the excitation of electromagnetic wakefields as the beam propagates through a dielectric-lined waveguide. Owing to the nonultrarelativistic nature of the beam, the induced energy modulation eventually converts into a density modulation as the beam travels in a following free-space drift. The modulated beam is further accelerated to ∼20 MeV while preserving the imparted density modulation., Published by APS, College Park, Md.

Published

2019

4. Design Studies of a Proof-of-Principle Experiment on THz SASE FEL at PITZ

Author

Christian Koschitzki, H. Shaker, Grygorii Vashchenko, Frank Stephan, S. Lal, Mikhail Krasilnikov, Igor Isaev, A. Oppelt, G. Shu, Holger Huck, Houjun Qian, James Good, Xin Li, O. Lishilin, Matthias Gross, Gregor Loisch, Ye Lining Chen, Raffael Niemczyk, David Melkumyan, and Prach Boonpornprasert

Subjects

Physics, History, Terahertz radiation, business.industry, MC2: Photon Sources and Electron Accelerators, Computer Science Applications, Education, Accelerator Physics, Design studies, Optics, Proof of concept, ddc:530, business

Abstract

10th International Particle Accelerator Conference, IPAC'19, Melbourne, Australia, 19 May 2019 - 24 May 2019; Journal of physics / Conference series Conference series [...] 1350, 012036 - (2019). doi:10.1088/1742-6596/1350/1/012036, A free-electron laser based THz source is undergoing design studies at the Photo Injector Test facility at DESY in Zeuthen (PITZ). It is considered as a prototype for pump-probe experiments at the European XFEL, benefiting from the fact that the electron beam from the PITZ facility has an identical pulse train structure as the XFEL pulses. In the proposed proof-of-principle experiment, the electron beam (up to 4 nC bunch charge and 200 A peak current) will be accelerated to 16-22 MeV/c to generate SASE radiations in an LCLS-I undulator in the THz range between 60 and 100 pm with an expected energy of up to ~1 mJ/pulse. In this paper, we report our simulations on the optimization of the photo-injector and the design of the transport and matching beamline. Experimental investigations on the generation, characterization and matching of the high charge beam in the existing 22-m-long beamline will also be presented., Published by IOP Publ.20382, Bristol

Published

2019

5. Emittance Reduction of RF Photoinjector Generated Electron Beams by Transverse Laser Beam Shaping

Author

Grygorii Vashchenko, Ye Chen, Houjun Qian, Ingo Will, James Good, Prach Boonpornprasert, Igor Isaev, Shankar Lal, Seyd Hamed Shaker, David Melkumyan, Guan Shu, Anne Oppelt, Raffael Niemczyk, Osip Lishilin, Holger Huck, Gregor Loisch, Mikhail Krasilnikov, Xiangkun Li, Sandeep Mohanty, Frank Stephan, Matthias Groß, and Christian Koschitzki

Subjects

History, Materials science, business.industry, Photoinjector, MC2: Photon Sources and Electron Accelerators, Electron, Laser, Cathode, Computer Science Applications, Education, law.invention, Accelerator Physics, Reduction (complexity), Transverse plane, Optics, law, Physics::Accelerator Physics, Thermal emittance, ddc:530, business, Laser beams

Abstract

10th International Particle Accelerator Conference, IPAC’19, Melbourne, Australia, 2 May 2019 - 24 May 2019; Journal of physics / Conference series Conference series [...] 1350, 012046 - (2019). doi:10.1088/1742-6596/1350/1/012046, Laser pulse shaping is one of the key elements to generate low emittance electron beams with RF photoinjectors. Ultimately high performance can be achieved with ellipsoidal laser pulses, but 3-dimensional shaping is challenging. High beam quality can also be reached by simple transverse pulse shaping, which has demonstrated improved beam emittance compared to a transversely uniform laser in the 'pancake' photoemission regime. In this contribution we present the truncation of a Gaussian laser at a radius of approximately one sigma in the intermediate (electron bunch length directly after emission about the same as radius) photoemission regime with high acceleration gradients (up to 60 MV/m). This type of electron bunch is used e.g. at the European XFEL and FLASH free electron lasers at DESY, Hamburg site and is being investigated in detail at the Photoinjector Test facility at DESY in Zeuthen (PITZ). Here we present ray-tracing simulations and experimental data of a laser beamline upgrade enabling variable transverse truncation. Initial projected emittance measurements taken with help of this setup are shown, as well as supporting beam dynamics simulations. Additional simulations show the potential for substantial reduction of slice emittance at PITZ., Published by IOP Publ.20382, Bristol

Published

2019

6. Accelerator-Based Tunable THz Source for Pump-and-Probe Experiments at the European X-Ray Free-Electron Laser Facility

Author

E. Schneidmiller, G. Georgiev, M. Pohl, Mikhail Krasilnikov, Axel Brachmann, Matthias Gross, Houjun Qian, Ye Lining Chen, C. Koschitzki, James Good, Holger Huck, Anne Oppelt, S. Lal, Prach Boonpornprasert, G. Koss, O. Lishilin, Frank Stephan, R. Niemczyk, David Melkumyan, G. Shu, S. Philipp, Xin Li, J. Schultze, Gregor Loisch, Grygorii Vashchenko, Heinz-Dieter Nuhn, M. Yurkov, H. Shaker, and Igor Isaev

Subjects

Physics, Optics, Terahertz radiation, business.industry, Thz radiation, Free-electron laser, X-ray, DESY, Electron, business, Excitation, Pulse (physics)

Abstract

44th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz) : [Proceedings] - IEEE, 2019. - ISBN 978-1-5386-8285-2 - doi:10.1109/IRMMW-THz.2019.8874425 2019 44th International Conference on Infrared, Millimeter, and Terahertz Waves, IRMMW-THz 2019, Paris, France, 1 Sep 2019 - 6 Sep 2019; IEEE 1 pp. (2019). doi:10.1109/IRMMW-THz.2019.8874425, There is a high demand for intense THz sources since “many excitation mechanisms of matter resonate in the terahertz regime” especially for condensed matters. “Accelerator-based THz sources provide the wide tunability together with high intensity and repetition rates beyond 100 kHz, that will enable broad application at the European XFEL to the most interesting scientific problems in the field” [1]. Supported by European XFEL a proof of principle study is started at the Photo-Injector Test Facility located at DESY in Zeuthen site (PITZ). Since PITZ and European XFEL electron sources are identical the X-ray and THz radiation can be produced with identical bunch train structure so that for every X-ray pulse a corresponding THz pulse can be provided for the pump-and- probe experiments., Published by IEEE

Published

2019