Vladislav Skomorokhov scite author profile

The luminosity of Compton x-ray and sources depends on the average current in electron bunches, the energy of the laser pulses, and the geometry of the particle bunch to laser pulse collisions. To obtain high power photon pulses, these can be stacked in a passive optical resonator (Fabry-Perot cavity) especially when a high average flux is required. But, in this case, owing to the presence of the optical cavity mirrors, the electron bunches have to collide at an angle with the laser pulses with a consequent luminosity decrease. In this article a crab-crossing scheme is proposed for Compton sources, based on a laser amplified in a Fabry-Perot resonator, to eliminate the luminosity losses given by the crossing angle, taking into account that in laser-electron collisions only the electron bunches can be tilted at the collision point. We report the analytical study on the crab-crossing scheme for Compton gamma sources. The analytical expression for the total yield of photons generated in Compton sources with the crab-crossing scheme of collision is derived. The optimal collision angle of the bunch was found to be equal to half of the collision angle. At this crabbing angle, the maximal yield of scattered off laser photons is attained thanks to the maximization, in the collision process, of the time spent by the laser pulse in the electron bunch. Estimations for some Compton source projects are presented. Furthermore, some schemes of the optical cavities configuration are analyzed and the luminosity calculated. As illustrated, the four-mirror two-or three-dimensional scheme is the most appropriate for Compton sources.

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Beam dynamics in Compton ring gamma sources

Bulyak

Gladkikh

Skomorokhov

et al. 2006

Phys. Rev. ST Accel. Beams

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http://link.aps.org/abstract/PRSTAB/v9/e094001Electron storage rings of GeV energy with laser pulse stacking cavities are promising intense sources of polarized hard photons which, via pair production, can be used to generate polarized positron beams. In this paper, the dynamics of electron bunches circulating in a storage ring and interacting with high-power laser pulses is studied both analytically and by simulation. Both the common features and the differences in the behavior of bunches interacting with an extremely high power laser pulse and with a moderate pulse are discussed. Also considerations on particular lattice designs for Compton gamma rings are presented

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Compton ring for nuclear waste management

Bulyak

Gladkikh

Omori

et al. 2010

Nuclear Instruments and Methods in Physics Research Section A:

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Assessment of the Current Status of the Snow Sheep Population Ovis Nivicola Nivicola Eschscholtz, 1829 of the Coastal Terraces of the Special Protection Zone “Mys Nalychevo” (“Nalychevo” Nature Park)

Skomorokhov¹,

Karpov²

2022

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