Your search keyword '"Stupakov, Gennady"' showing total 277 results

1. Paraxial forward-scatter field analysis for a THz pulse traveling down a highly overmoded iris-line waveguide

Author

Naji, Adham and Stupakov, Gennady

Subjects

Physics - Accelerator Physics, Physics - Optics

Abstract

Highly overmoded iris-line structures carry desirable features for the efficient transportation of THz radiation over long distances. Previous studies have analyzed the iris line, modeled approximately as a long open-resonator structure with thin screens, using methods such as Vainstein's impedance boundary condition or perturbative mode matching. The aim in those methods was to seek the eigensolution that represents the dominant (least lossy) propagation mode in a long iris-line structure at steady state. In this paper, a forward-traveling wave analysis is presented, wherein a short THz pulse paraxially traverses the oversized structure cell by cell, including the transient regime. The iris line's periodic discontinuities are analyzed in terms of forward-wave orthogonal mode decompositions, which are then used to build a 'forward-scatter' model (matrix) for each cell. The presented approach predicts a diffraction loss behavior that agrees with that of the eigensolution found by the previous analytical methods at the steady state for a long waveguide, but adds the ability of analyzing waveguides of finite lengths, showing transients as they evolve and settle to the dominant mode down the line, and offers numerical implementation speeds that are typically an order-of-magnitude faster than those previously reported for the mode-matching method. This approach may also be easily extended to analyze iris lines with mechanical imperfections (e.g. misalignments or aperiodic defects), allowing for investigations of performance sensitivity against manufacturing tolerances., Comment: 22 pages, 13 figures. [Version 2: corrected some typos and updated some figures to remove phase from transient curves (magnitude)]

Published

2022

2. Field Analysis for a Highly-Overmoded Iris Line, with Application to THz Radiation Transport at LCLS

Author

Naji, Adham, Stupakov, Gennady, Huang, Zhirong, and Bane, Karl

Subjects

Physics - Accelerator Physics, Physics - Optics

Abstract

Vector field analysis is presented for a highly overmoded iris-line structure that can act as a medium of transportation for THz radiation. The axisymmetric structure is capable of supporting hybrid modes with desirable features such as low propagation loss, uniformly linear polarization and approximately-Gaussian intensity profile across the iris. A specific application that can benefit from these features is the transportation of THz undulator radiation over hundreds of meters to reach the experimental halls at the LCLS facility, SLAC, Stanford. Such a structure has been modelled before as a boundary-value problem using Vainstein's impedance boundary condition and assuming infinitely-thin screens. Given that physical realizations of such screens must have finite thickness and that the THz wavelength in the 3-15 THz range is expected to be smaller than convenient screen thicknesses in practice, the question of the impact of finite screen thickness on propagation performance becomes rather pressing. To address this question, we present a mode-matching analysis of the structure, with finite screen thickness and perturbatively clustered (localized) field expansions, for computational feasibility. The effect of screen thickness is seen to lower the attenuation constant on the iris line, which is dominated by diffraction loss. The propagation loss predictions based on the Vainstein-model are compared with the numerical results from mode-matching for infinitely-thin screens, where the former method is observed to agree with the numerical results better at higher Fresnel numbers (highly-overmoded structures). The properties of the dominant mode fields are formally derived from first principles and a recommended approach is discussed for the inclusion of screen-thickness effects into propagation loss estimations., Comment: 22 pages, 14 figures

Published

2021

3. Cooling and diffusion rates in coherent electron cooling concepts

Author

Nagaitsev, Sergei, Lebedev, Valeri, Stupakov, Gennady, Wang, Erdong, and Bergan, William

Subjects

Physics - Accelerator Physics

Abstract

We present analytic cooling and diffusion rates for a simplified model of coherent electron cooling (CEC), based on a proton energy kick at each turn. This model also allows to estimate analytically the rms value of electron beam density fluctuations in the "kicker" section. Having such analytic expressions should allow for better understanding of the CEC mechanism, and for a quicker analysis and optimization of main system parameters. Our analysis is applicable to any CEC amplification mechanism, as long as the wake (kick) function is available.

Published

2021

4. Suppression of the Fast Beam-Ion Instability by Tune Spread in the Electron Beam due to Beam-Beam Effects

Author

Stupakov, Gennady

Subjects

Physics - Accelerator Physics

Abstract

The fast beam-ion instability (FII) is caused by the interaction of an electron bunch train with the residual gas ions. The ion oscillations in the potential well of the electron beam have an inherent frequency spread due to the nonlinear profile of the potential. However, this frequency spread and associated with it Landau damping typically is not strong enough to suppress the instability. In this work, we develop a model of FII which takes into account the frequency spread in the electron beam due to the beam-beam interaction in an electron-ion collider. We show that with a large enough beam-beam parameter the fast ion instability can be suppressed. We estimate the strength of this effect for the parameters of the eRHIC electron-ion collider., Comment: Paper presented at the ICFA mini-Workshop on Mitigation of Coherent Beam Instabilities in particle accelerators (MCBI2019), 23-27 September 2019 Zermatt (Switzerland)

Published

2019

5. Centripetal Transverse Wakefield in Relativistic Beam

Author

Stupakov, Gennady

Subjects

Physics - Accelerator Physics

Abstract

The effect of the transverse self-force in a relativistic beam has been studied in the earlier paper of the author [1]. However, the analysis of [1] missed an important observation and has lead to an incorrect estimate of the emittance growth of the beam when it passes through a long bending magnet. Here we correct that analysis. In particular, we conclude that the emittance growth due to the transverse self-force in a long bend is always much smaller than the emittance growth due to the longitudinal coherent synchrotron radiation (CSR) wake.

Published

2019

6. Cooling Rate for Microbunched Electron Cooling without Amplification

Author

Stupakov, Gennady

Subjects

Physics - Accelerator Physics

Abstract

The Microbunched Electron Cooling (MBEC) proposed by D. Ratner is a promising cooling technique that can find applications in future hadron and electron-ion colliders. In this paper, we develop a new framework for the study of MBEC which is based on the analysis of the dynamics of microscopic 1D fluctuations in the electron and hadron beams during their interaction and propagation through the system. Within this framework, we derive an analytical formula for the cooling rate and benchmark it against 1D computer simulations with a agreement between the analytical and numerical results. We then calculate the expecting cooling time for a set of parameters of the proposed electron-ion collider eRHIC in a simple cooling system with one chicane in the electron channel. While the cooling rate in this system turns out to be insufficient to counteract the intra-beam scattering in the proton beam, we discuss how the electron signal can be amplified by two orders of magnitude through the use of plasma effects in the beam.

Published

2018

7. Measurements of wake-induced electron beam deflection in a dechirper at the Linac Coherent Light Source

Author

Zemella, Johann, Bane, Karl, Fisher, Alan, Guetg, Marc, Huang, Zhirong, Iverson, Richard, Krejcik, Patrick, Lutman, Alberto, Maxwell, Timothy, Novokhatski, Alexander, Stupakov, Gennady, Zhang, Zhen, Harrison, Mark, and Ruelas, Marcos

Subjects

Physics - Accelerator Physics

Abstract

The RadiaBeam/SLAC dechirper, a structure consisting of pairs of flat, metallic, corrugated plates, %a corrugated structure in flat geometry, has been installed just upstream of the undulators in the Linac Coherent Light Source (LCLS). As a dechirper, with the beam passing between the plates on axis, longitudinal wakefields are induced that can remove unwanted energy chirp in the beam. However, with the beam passing off axis, strong transverse wakes are also induced. This mode of operation has already been used for the production of intense, multi-color photon beams using the Fresh-Slice technique, and is being used to develop a diagnostic for attosecond bunch length measurements. Here we measure, as function of offset, the strength of the transverse wakefields that are excited between the two plates, and also for the case of the beam passing near to a single plate. We compare with analytical formulas from the literature, and find good agreement. This report presents the first systematic measurements of the transverse wake strength in a dechirper, one that has been excited by a bunch with the short pulse duration and high energy found in an X-ray free electron laser., Comment: 8 pages, double column, 6 figures

Published

2017

8. Generation of a wakefield undulator in plasma with transverse density gradient

Author

Stupakov, Gennady

Subjects

Physics - Accelerator Physics

Abstract

We show that a short relativistic electron beam propagating in a plasma with a density gradient perpendicular to the direction of motion generates a wakefield in which a witness bunch experiences a transverse force. A density gradient oscillating along the beam path would create a periodically varying force---an undulator, with an estimated strength of the equivalent magnetic field more than ten Tesla. This opens an avenue for creation of a high-strength, short-period undulators, which eventually may lead to all-plasma, free electron lasers where a plasma wakefield acceleration is naturally combined with a plasma undulator in a unifying, compact setup.

Published

2017

9. Estimate of Joule Heating in a Flat Dechirper

Author

Bane, Karl, Stupakov, Gennady, and Gjonaj, Erion

Subjects

Physics - Accelerator Physics

Abstract

We have performed Joule power loss calculations for a flat dechirper. We have considered the configurations of the beam on-axis between the two plates---for chirp control---and for the beam especially close to one plate---for use as a fast kicker. Our calculations use a surface impedance approach, one that is valid when corrugation parameters are small compared to aperture (the perturbative parameter regime). In our model we ignore effects of field reflections at the sides of the dechirper plates, and thus expect the results to underestimate the Joule losses. The analytical results were also tested by numerical, time-domain simulations. We find that most of the wake power lost by the beam is radiated out to the sides of the plates. For the case of the beam passing by a single plate, we derive an analytical expression for the broad-band impedance, and---in Appendix B---numerically confirm recently developed, analytical formulas for the short-range wakes. While our theory can be applied to the LCLS-II dechirper with large gaps, for the nominal apertures we are not in the perturbative regime and the reflection contribution to Joule losses is not negligible. With input from computer simulations, we estimate the Joule power loss (assuming bunch charge of 300 pC, repetition rate of 100 kHz) is 21~W/m for the case of two plates, and 24 W/m for the case of a single plate., Comment: 36 pages, 17 figures

Published

2017

10. Stimulated X-ray Raman scattering in Free Electron Lasers with incoherent spectrum

Author

Stupakov, Gennady and Zolotorev, Max

Subjects

Physics - Accelerator Physics

Abstract

The single-pulse spectrum of self-amplified spontaneous emission (SASE) free electron lasers (FELs) is characterized by random fluctuations in frequency. The typical spectrum bandwidth for a hard x-ray FEL is in the range of 10-20 eV and is comparable with the distance between energy levels of valence electrons in atoms an molecules. We calculate the rate of transitions in a quantum three-level system with the energy difference of several eV caused by such radiation and show that for x-ray intensities in the range of $10^{20}$ W/cm$^2$ the probability of the transition over the duration of the x-ray pulse is large. We argue that this effect can be used to modify the spectrum of a SASE FEL potentially making it more narrow.

Published

2016

11. Wakefields of a Beam near a Single Plate in a Flat Dechirper

Author

Bane, Karl, Stupakov, Gennady, and Zagorodnov, Igor

Subjects

Physics - Accelerator Physics

Abstract

We give formulas for the longitudinal, transverse, and quad point charge wakes for a short bunch of electrons passing by one plate of a flat dechirper., Comment: 7 pages, 4 figures, one table

Published

2016

12. Measurements of Terahertz Radiation Generated using a Metallic, Corrugated Pipe

Author

Bane, Karl, Stupakov, Gennady, Antipov, Sergey, Fedurin, Mikhail, Kusche, Karl, Swinson, Christina, and Xiang, Dao

Subjects

Physics - Accelerator Physics

Abstract

A method for producing narrow-band THz radiation proposes passing an ultra-relativistic beam through a metallic pipe with small periodic corrugations. We present results of a measurement of such an arrangement at Brookhaven's Accelerator Test Facility (ATF). Our pipe was copper and was 5 cm long; the aperture was cylindrically symmetric, with a 1 mm (radius) bore and a corrugation depth (peak-to-peak) of 60 um. In the experiment we measured both the effect on the beam of the structure wakefield and the spectral properties of the radiation excited by the beam. We began by injecting a relatively long beam compared to the wavelength of the radiation, but with short rise time, to excite the structure, and then used a downstream spectrometer to infer the radiation wavelength. This was followed by injecting a shorter bunch, and then using an interferometer (also downstream of the corrugated pipe) to measure the spectrum of the induced THz radiation. For the THz pulse we obtain and compare with calculations: the central frequency, the bandwidth, and the spectral power---compared to a diffraction radiation background signal., Comment: 26 pages, 10 figures

Published

2016

13. Dispersion Relation of a Surface Wave at a Rough Metal-Air Interface

Author

Kotelnikov, Igor and Stupakov, Gennady

Subjects

Physics - Optics

Abstract

We derived a dispersion relation of a surface wave at a rough metal-air interface. In contrast to previous publications, we assumed that an intrinsic surface impedance due to a finite electric conductivity of the metal can be of the same order as the roughness-induced impedance. We then applied our results to the analysis of a long-standing problem of the discrepancy between the experimental data on the propagation of surface waves in the terahertz range of frequencies and the classical Drude theory., Comment: 9 pages, 2 figures

Published

2016

14. Dechirper Wakefields for Short Bunches

Author

Bane, Karl and Stupakov, Gennady

Subjects

Physics - Accelerator Physics

Abstract

In previous work [1] general expressions, valid for arbitrary bunch lengths, were derived for the wakefields of corrugated structures with flat geometry, such as is used in the RadiaBeam/LCLS dechirper. However, the bunch at the end of linac-based X-ray FELs--like the LCLS--is extremely short, and for short bunches the wakes can be considerably simplified. In this work, we first derive analytical approximations to the short-range wakes. These are generalized wakes, in the sense that their validity is not limited to a small neighborhood of the symmetry axis, but rather extends to arbitrary transverse offsets of driving and test particles. The validity of these short-bunch wakes holds not only for the corrugated structure, but rather for any flat structure whose beam-cavity interaction can be described by a surface impedance. We use these wakes to obtain, for a short bunch passing through a dechirper: estimates of the energy loss as function of gap, the transverse kick as function of beam offset, the slice energy spread increase, and the emittance growth. In the Appendix, a more accurate derivation--than is found in [1]--of the arbitrary bunch length wakes is performed; we find full agreement with the earlier results, provided the bunches are short compared to the dechirper gap, which is normally the regime of interest. [1] K. Bane and G. Stupakov, Phys. Rev. ST Accel. Beams 18, 034401(2015)., Comment: 26 pages, 1 figure

Published

2016

15. Analytical theory of coherent synchrotron radiation wakefield of short bunches shielded by conducting parallel plates

Author

Stupakov, Gennady and Zhou, Demin

Subjects

Physics - Accelerator Physics

Abstract

We develop a general model of coherent synchrotron radiation (CSR) impedance with shielding provided by two parallel conducting plates. This model allows us to easily reproduce all previously known analytical CSR wakes and to expand the analysis to the situations not explored before. It reduces calculations of the impedance to taking integrals along the trajectory of the beam. New analytical results are derived for the radiation impedance with shielding for the following orbits: a kink, a bending magnet, a wiggler of finite length, and an infinitely long wiggler. All our formulas are benchmarked agains numerical simulations with the CSRZ computer code.

Published

2016

16. Demonstration of nonlinear-energy-spread compensation in relativistic electron bunches with corrugated structures

Author

Fu, Feichao, Wang, Rui, Zhu, Pengfei, Zhao, Lingrong, Jiang, Tao, Lu, Chao, Liu, Shengguang, Shi, Libin, Yan, Lixin, Deng, Haixiao, Feng, Chao, Gu, Qiang, Huang, Dazhang, Liu, Bo, Wang, Dong, Wang, Xingtao, Zhang, Meng, Zhao, Zhentang, Stupakov, Gennady, Xiang, Dao, and Zhang, Jie

Subjects

Physics - Accelerator Physics

Abstract

High quality electron beams with flat distributions in both energy and current are critical for many accelerator-based scientific facilities such as free-electron lasers and MeV ultrafast electron diffraction and microscopes. In this Letter we report on using corrugated structures to compensate for the beam nonlinear energy chirp imprinted by the curvature of the radio-frequency field, leading to a significant reduction in beam energy spread. By using a pair of corrugated structures with orthogonal orientations, we show that the quadrupole wake fields which otherwise increase beam emittance can be effectively canceled. This work also extends the applications of corrugated structures to the low beam charge (a few pC) and low beam energy (a few MeV) regime and may have a strong impact in many accelerator-based facilities., Comment: 5 pages, 5 figures

Published

2015

17. Topics in Laser-Driven Acceleration

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

18. Radiation Damping Effects

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

19. Formation Length of Radiation and Coherent Effects

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

20. Undulator Radiation

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

21. Radiation and Retarded Potentials

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

22. Synchrotron Radiation

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

23. Transition and Diffraction Radiation

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

24. Waveguides and RF Cavities

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

25. Plane Electromagnetic Waves and Gaussian Beams

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

26. Dipole Radiation and Scattering of Electromagnetic Waves

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

27. Self Field of a Relativistic Beam

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

28. Effect of Environment on Electromagnetic Field of a Beam

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

29. Nonlinear Resonance and Resonance Overlapping

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

30. Equations of Motion in Accelerators

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

31. Magnetic Field and Energy Errors

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

32. Action-Angle Variables for Betatron Oscillations

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

33. Canonical Transformations

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

34. Coordinate System and Hamiltonian for a Circular Accelerator

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

35. Action-Angle Variables and Liouville’s Theorem

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

36. Linear and Nonlinear Oscillators

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

37. The Kinetic Equation

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

38. The Basic Formulation of Mechanics: Lagrangian and Hamiltonian Equations of Motion

Author

Stupakov, Gennady, Penn, Gregory, Becker, Kurt H., Series Editor, Di Meglio, Jean-Marc, Series Editor, Hassani, Sadri, Series Editor, Munro, Bill, Series Editor, Needs, Richard, Series Editor, Rhodes, William T., Series Editor, Scott, Susan, Series Editor, Stanley, H Eugene, Series Editor, Stutzmann, Martin, Series Editor, Wipf, Andreas, Series Editor, Stupakov, Gennady, and Penn, Gregory

Published

2018

39. Using pipe with corrugated walls for a sub-terahertz FEL

Author

Stupakov, Gennady

Subjects

Physics - Accelerator Physics

Abstract

It has been noted in the past, in the study of the wall-roughness impedance, that a metallic pipe with corrugated walls supports propagation of a high-frequency mode that is in resonance with a relativistic beam. This mode can be excited by a beam whose length is a fraction of the wavelength. In this paper, we study another option of excitation of the resonant mode in a metallic pipe with corrugated walls---via the mechanism of the free electron laser instability. This mechanism works if the bunch length is much longer than the wavelength of the radiation.

Published

2014

40. Beam by design: laser manipulation of electrons in modern accelerators

Author

Hemsing, Erik, Stupakov, Gennady, Xiang, Dao, and Zholents, Alexander

Subjects

Physics - Accelerator Physics

Abstract

Accelerator-based light sources such as storage rings and free-electron lasers use relativistic electron beams to produce intense radiation over a wide spectral range for fundamental research in physics, chemistry, materials science, biology and medicine. More than a dozen such sources operate worldwide, and new sources are being built to deliver radiation that meets with the ever increasing sophistication and depth of new research. Even so, conventional accelerator techniques often cannot keep pace with new demands and, thus, new approaches continue to emerge. In this article, we review a variety of recently developed and promising techniques that rely on lasers to manipulate and rearrange the electron distribution in order to tailor the properties of the radiation. Basic theories of electron-laser interactions, techniques to create micro- and nano-structures in electron beams, and techniques to produce radiation with customizable waveforms are reviewed. We overview laser-based techniques for the generation of fully coherent x-rays, mode-locked x-ray pulse trains, light with orbital angular momentum, and attosecond or even zeptosecond long coherent pulses in free-electron lasers. Several methods to generate femtosecond pulses in storage rings are also discussed. Additionally, we describe various schemes designed to enhance the performance of light sources through precision beam preparation including beam conditioning, laser heating, emittance exchange, and various laser-based diagnostics. Together these techniques represent a new emerging concept of "beam by design" in modern accelerators, which is the primary focus of this article, Comment: Accepted for publication in Reviews of Modern Physics, http://journals.aps.org/rmp/accepted/96075E9fMc416d04401f2be712a99eb6098f44432

Published

2014

41. Calculation of the Coherent Synchrotron Radiation Impedance from a Wiggler

Author

Wu, Juhao, Raubenheimer, Tor, and Stupakov, Gennady

Subjects

Physics - Accelerator Physics

Abstract

Most studies of Coherent Synchrotron Radiation (CSR) have only considered the radiation from independent dipole magnets. However, in the damping rings of future linear colliders, a large fraction of the radiation power will be emitted in damping wigglers. In this paper, the longitudinal wakefield and impedance due to CSR in a wiggler are derived in the limit of a large wiggler parameter $K$. After an appropriate scaling, the results can be expressed in terms of universal functions, which are independent of $K$. Analytical asymptotic results are obtained for the wakefield in the limit of large and small distances, and for the impedance in the limit of small and high frequencies., Comment: 10 pages, 8 figures

Published

2003

42. A bounded source cannot emit a unipolar electromagnetic wave

Author

Kim, Kwang-Je, McDonald, Kirk T., Stupakov, Gennady V., and Zolotorev, Max S.

Subjects

Physics - Classical Physics

Abstract

We show that a bounded source cannot produce a unipolar electromagnetic pulse. As a consequence, there are no three-dimensional electromagnetic solitons in vacuum., Comment: v2 adds one reference: thanks to Evgueni Bessonov

Published

2000

43. Impedance and Single Bunch Instability Calculations for the ILC Damping Ring

Author

Venturini, Marco, Bane, Karl, Heifets, Sam, Li, Zhenhai, Ng, Cho, Novokhatski, Alexander, Stupakov, Gennady, and Warnock, Robert

Subjects

Particle accelerators, impedance single-bunch instabilities damping ring

Abstract

An important action item for the damping rings of the International Linear Collider (ILC) is to compute the broad-band impedance and, from it, the threshold to the microwave instability. We report on the status of our study and provide a preliminary estimate of the instability threshold based on impedance models developed so far.

Published

2008

44. Measurements of terahertz radiation generated using a metallic, corrugated pipe

Author

Bane, Karl, Stupakov, Gennady, Antipov, Sergey, Fedurin, Mikhail, Kusche, Karl, Swinson, Christina, and Xiang, Dao

Published

2017

45. ABSOLUTE BUNCH LENGTH MEASUREMENTS AT THE ALS BY INCOHERENT SYNCHROTRON RADIATION FLUCTUATION ANALYSIS

Author

Sannibale, Fernando, Zolotorev, Max S., Filippetto, Daniele, and Stupakov, Gennady V.

Subjects

Particle accelerators, Bunch Lenght Measurement BL7.2 ALS

Abstract

By analysing the pulse to pulse intensity fluctuations of the radiation emitted by a charge particle in the incoherent part of the spectrum, it is possible to extract information about the spatial distribution of the beam. At the Advanced Light Source (ALS) of the Lawrence Berkeley National Laboratory, we have developed and tested a simple scheme based on this principle that allows for the absolute measurement of the bunch length. A description of the method and the experimental results are presented.

Published

2007

46. Trapped Modes in the Vacuum Chamber of an Arbitrary Cross Section

Author

Kurennoy, Sergey S. and Stupakov, Gennady V.

Subjects

Physics - Accelerator Physics

Abstract

It has been shown that a small discontinuity such as an enlargement or a hole on circular waveguides can produce trapped electromagnetic modes with frequencies slightly below the waveguide cutoff. The trapped modes due to multiple discontinuities can lead to high narrow-band contributions to the beam-chamber coupling impedance, especially when the wall conductivity is high enough. To make more reliable estimates of these contributions for real machines, an analytical theory of the trapped modes is developed in this paper for a general case of the vacuum chamber with an arbitrary single-connected cross section. The resonant frequencies and coupling impedances due to trapped modes are calculated, and simple explicit expressions are given for circular and rectangular cross sections. The estimates for the LHC are presented., Comment: LaTeX, 3 pages (IEEE format), uses pac95.sty (18K)

Published

1995

47. A General Approach for Calculating Coupling Impedances of Small Discontinuities

Author

Kurennoy, Sergey S., Gluckstern, Robert L., and Stupakov, Gennady V.

Subjects

Physics - Accelerator Physics

Abstract

A general theory of the beam interaction with small discontinuities of the vacuum chamber is developed taking into account the reaction of radiated waves back on the discontinuity. The reactive impedance calculated earlier is reproduced as the first order, and the resistive one as the second order of a perturbation theory based on this general approach. The theory also gives, in a very natural way, the results for the trapped modes due to small discontinuities obtained earlier by a different method., Comment: LaTeX, 3 pages (IEEE format), uses pac95.sty (20K)

Published

1995

48. LCLS X-Ray FEL Output Performance in the Presence of Highly Time-Dependent Undulator Wakefields

Author

Bane, Karl L.F., Emma, Paul, Huang, Heinz-Dieter Nuhn, Stupakov, Gennady, Fawley, William M., and Reiche, Sven

Subjects

Particle accelerators, free-electron laser LCLS undulator wakefields

Published

2005

49. Current-enhanced SASE using an optical laser and its application to the LCLS

Author

Zholents, Alexander A., Fawley, William M., Emma, Paul, Huang, Zhirong, Reiche, Sven, and Stupakov, Gennady

Subjects

Particle accelerators, Free-electron laser SASE LCLS

Abstract

We propose a significant enhancement of the electron peak current entering a SASE undulator by inducing an energy modulation in an upstream wiggler magnet via resonant interaction with an optical laser, followed by microbunching of the energy-modulated electrons at the accelerator exit. This current enhancement allows a reduction of the FEL gain length. The x-ray output consists of a series of uniformly spaced spikes, each spike being temporally coherent. The duration of this series is controlled by the laser pulse and in principle can be narrowed down to just a single, ~;200-attosecond spike. Given potentially absolute temporal synchronization of the x-ray spikes to the energy-modulating laser pulse, this scheme naturally makes pump-probe experiments available to SASE FEL's. We also study various detrimental effects related to the high electron peak current.

Published

2004

50. Linear Vlasov analysis for stability of a bunched beam

Author

Warnock, Robert, Stupakov, Gennady, Venturini, Marco, and Ellison, James A.

Subjects

Particle accelerators

Published

2004