Search Results - "POGORELSKY, I. V"

Plasma electron acceleration driven by a long-wave-infrared laser by Zgadzaj, R., Welch, J., Cao, Y., Amorim, L. D., Cheng, A., Gaikwad, A., Iapozzutto, P., Kumar, P., Litvinenko, V. N., Petrushina, I., Samulyak, R., Vafaei-Najafabadi, N., Joshi, C., Zhang, C., Babzien, M., Fedurin, M., Kupfer, R., Kusche, K., Palmer, M. A., Pogorelsky, I. V., Polyanskiy, M. N., Swinson, C., Downer, M. C.

“…Laser-driven plasma accelerators provide tabletop sources of relativistic electron bunches and femtosecond x-ray pulses, but usually require petawatt-class…”
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Converting conventional electron accelerators to high peak brilliance Compton light sources by Pogorelsky, I. V., Polyanskiy, M., Shaftan, T.

“…Several proposals have been put forward for converting electron accelerators to inverse Compton scattering (ICS) gamma sources. Typical approaches suggest…”
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Mid-infrared lasers for energy frontier plasma accelerators by Pogorelsky, I. V., Polyanskiy, M. N., Kimura, W. D.

“…Plasma wake field accelerators driven with solid-state near-IR lasers have been considered as an alternative to conventional rf accelerators for…”
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Polarized γ source based on Compton backscattering in a laser cavity by Yakimenko, V., Pogorelsky, I. V.

“…We propose a novel gamma source suitable for generating a polarized positron beam for the next generation of electron-positron colliders, such as the…”
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Demonstration of high-trapping efficiency and narrow energy spread in a laser-driven accelerator by Kimura, W D, Babzien, M, Ben-Zvi, I, Campbell, L P, Cline, D B, Dilley, C E, Gallardo, J C, Gottschalk, S C, Kusche, K P, Pantell, R H, Pogorelsky, I V, Quimby, D C, Skaritka, J, Steinhauer, L C, Yakimenko, V, Zhou, F

“…Laser-driven electron accelerators (laser linacs) offer the potential for enabling much more economical and compact devices. However, the development of…”
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Optical stochastic cooling for RHIC using optical parametric amplification by Babzien, M., Ben-Zvi, I., Pavlishin, I., Pogorelsky, I. V., Yakimenko, V. E., Zholents, A. A., Zolotorev, M. S.

“…We propose using an optical parametric amplifier, with a ∼12   μm wavelength, for optical-stochastic cooling of ^{79}Au ions in the Relativistic Heavy Ion…”
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Response to “Comment on `Nonlinear Compton scattering and electron acceleration in interfering laser beams'” by Pogorelsky, I. V.

“…Response is made to Y. I. Salamin's preceding Comment [Phys. Rev. ST Accel. Beams 3, 059001 (2000)]. We confirm the areas of applicability of the original and…”
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Pseudoresonant laser wakefield acceleration driven by 10.6-μm laser light by KIMURA, W. D, ANDREEV, N. E, PAVLISHIN, I. V, POGORELSKY, I. V, POGOSOVA, A. A, STEINHAUER, L. C, TING, A, YAKIMENKO, V, ZIGLER, A, ZHOU, F, BABZIEN, M, BEN-ZVI, I, CLINE, D. B, DILLEY, C. E, GOTTSCHALK, S. C, HOOKER, S. M, KUSCHE, K. P, KUZNETSOV, S. V

“…This work describes an experiment to demonstrate, for the first time, laser wakefield acceleration (LWFA), driven by 10.6- mu m light from a CO sub(2) laser…”
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First staging of two laser accelerators by Kimura, W D, van Steenbergen, A, Babzien, M, Ben-Zvi, I, Campbell, L P, Cline, D B, Dilley, C E, Gallardo, J C, Gottschalk, S C, He, P, Kusche, K P, Liu, Y, Pantell, R H, Pogorelsky, I V, Quimby, D C, Skaritka, J, Steinhauer, L C, Yakimenko, V

“…Staging of two laser-driven, relativistic electron accelerators has been demonstrated for the first time in a proof-of-principle experiment, whereby two…”
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Laser Acceleration of Relativistic Electrons Using the Inverse Cherenkov Effect by Kimura, W, Kim, G, Romea, R, Steinhauer, L, Pogorelsky, I, I, Kusche, K, Fernow, R, Wang, X, Liu, Y

“…A 580-MW peak power, radially polarized CO[sub 2] laser beam ([lambda]=10.6[mu]m) focused by an axicon accelerated 40-MeV electrons by [le]3.7 MeV over a 12-cm…”
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Cohesive acceleration and focusing of relativistic electrons in overdense plasma by Yakimenko, V, Pogorelsky, I V, Pavlishin, I V, Ben-Zvi, I, Kusche, K, Eidelman, Yu, Hirose, T, Kumita, T, Kamiya, Y, Urakawa, J, Greenberg, B, Zigler, A

“…We describe our studies of the generation of plasma wake fields by a relativistic electron bunch and of phasing between the longitudinal and transverse fields…”
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Monoenergetic laser wakefield acceleration by Andreev, N. E., Kuznetsov, S. V., Pogorelsky, I. V.

“…Three dimensional test particle simulations are applied to optimization of the plasma-channeled laser wakefield accelerator (LWFA) operating in a weakly…”
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Inverse free electron lasers and laser wakefield acceleration driven by CO2 lasers by Kimura, W.D, Andreev, N.E, Babzien, M, Ben-Zvi, I, Cline, D.B, Dilley, C.E, Gottschalk, S.C, Hooker, S.M, Kusche, K.P, Kuznetsov, S.V, Pavlishin, I.V, Pogorelsky, I.V, Pogosova, A.A, Steinhauer, L.C, Ting, A, Yakimenko, V, Zigler, A, Zhou, F

“…-beam pulse into the plasma to initiate wakefield formation. These wakefields are amplified by a laser pulse following shortly after the seed pulse. A second…”
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Detailed experimental results for high-trapping efficiency and narrow energy spread in a laser-driven accelerator by Kimura, W. D., Campbell, L. P., Dilley, C. E., Gottschalk, S. C., Quimby, D. C., Babzien, M., Ben-Zvi, I., Gallardo, J. C., Kusche, K. P., Pogorelsky, I. V., Skaritka, J., Yakimenko, V., Cline, D. B., Zhou, F., Steinhauer, L. C., Pantell, R. H.

“…Presented are details of the staged electron laser acceleration (STELLA) experiment, which demonstrated high-trapping efficiency and narrow energy spread in a…”
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Detailed experimental results for laser acceleration staging by Kimura, W. D., Campbell, L. P., Dilley, C. E., Gottschalk, S. C., Quimby, D. C., van Steenbergen, A., Babzien, M., Ben-Zvi, I., Gallardo, J. C., Kusche, K. P., Pogorelsky, I. V., Skaritka, J., Yakimenko, V., Cline, D. B., He, P., Liu, Y., Steinhauer, L. C., Pantell, R. H.

“…Detailed experimental results of staging two laser-driven, relativistic electron accelerators are presented. During the experiment called STELLA (staged…”
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Nonlinear Compton scattering and electron acceleration in interfering laser beams by Amatuni, A. Ts, Pogorelsky, I. V.

“…The exact solution of the classical nonlinear equation of motion for a relativistic electron in the field of two electromagnetic (EM) waves is obtained. For…”
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Demonstration of 8×10^{18} photons/second peaked at 1.8 Å in a relativistic Thomson scattering experiment by I. V. Pogorelsky, I. Ben-Zvi, T. Hirose, S. Kashiwagi, V. Yakimenko, K. Kusche, P. Siddons, J. Skaritka, T. Kumita, A. Tsunemi, T. Omori, J. Urakawa, M. Washio, K. Yokoya, T. Okugi, Y. Liu, P. He, D. Cline

“…7.6×10^{6} x-ray photons per 3.5 ps pulse are detected within a 1.8–2.3 Å spectral window during a proof-of-principle laser synchrotron source experiment. A…”
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Ultrafast CO2 laser technology: Application in ion acceleration by Pogorelsky, I.V., Yakimenko, V., Polyanskiy, M., Shkolnikov, P., Ispiryan, M., Neely, D., McKenna, P., Carroll, D., Najmudin, Z., Willingale, L.

“…We review principles of picosecond CO{sub 2} lasers, operating at 10 {mu}m wavelength, and their applications for strong-field physics research. Such laser has…”
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Ultrafast CO sub(2) laser technology: Application in ion acceleration by Pogorelsky, I V, Yakimenko, V, Polyanskiy, M, Shkolnikov, P, Ispiryan, M, Neely, D, McKenna, P, Carroll, D, Najmudin, Z, Willingale, L

“…We review principles of picosecond CO sub(2) lasers, operating at 10 mu m wavelength, and their applications for strong-field physics research. Such laser has…”
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Ultra-bright X-ray and gamma sources by Compton backscattering of CO2 laser beams by Pogorelsky, I.V

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