bibliography.bib

@phdthesis{NikiforovThesis2023,
	author = {Никифоров, Д. А.},
	pages = {1--94},
	language={russian},
	school = {ИЯФ СО РАН},
	title = {{Исследование динамики пучка электронов в мощном линейном индукционном ускорителе с фокусировкой на сосредоточенных элементах}},
	url = {https://inp.nsk.ru/images/Nikiforov_disser.pdf},
	year = {2023}
}
@article{Annenkov2020,
	author = {Annenkov, V. V. and Volchok, E. P. and Timofeev, I. V.},
	doi = {10.3847/1538-4357/abbef2},
	issn = {15384357},
	journal = {The Astrophysical Journal},
	month = {nov},
	number = {2},
	pages = {88},
	title = {{Electromagnetic Emission Produced by Three-wave Interactions in a Plasma with Continuously Injected Counterstreaming Electron Beams}},
	volume = {904},
	year = {2020}
}
@article{Annenkov2019,
abstract = {In this paper, electromagnetic emissions produced by a beam-plasma system are investigated using particle-in-cell simulations for the particular case when the typical transverse size of both the 100 keV electron beam and the produced plasma channel is comparable to the radiation wavelength. The interest in this regime of beam-plasma interaction is associated with highly efficient generation of electromagnetic waves near the plasma frequency harmonics that has been recently observed in laboratory experiments on the GOL-3 mirror trap. It has been found that the radiation power only from the vicinity of the doubled plasma frequency in these experiments can reach 1% of the total beam power. Subsequent theoretical and simulation studies have shown that the most likely candidate for explaining such efficient generation of electromagnetic radiation is the mechanism of a beam-driven plasma antenna based on the conversion of the most unstable plasma oscillations on a longitudinal density modulation of plasma ions. In this paper, we investigate how effectively this mechanism can work in a real experiment at the GOL-3 facility, when a thin subrelativistic electron beam gets a large angular spread due to compression by a magnetic field, and the gas into which it is injected has macroscopic density gradients.},
archivePrefix = {arXiv},
arxivId = {1901.02668},
author = {Annenkov, V. V. and Timofeev, I. V. and Volchok, E. P.},
doi = {10.1063/1.5086237},
eprint = {1901.02668},
issn = {10897674},
journal = {Physics of Plasmas},
month = {jun},
number = {6},
pages = {063104},
publisher = {AIP Publishing LLC},
title = {{Highly efficient electromagnetic emission during 100 keV electron beam relaxation in a thin magnetized plasma}},
url = {http://aip.scitation.org/doi/10.1063/1.5086237 http://arxiv.org/abs/1901.02668},
volume = {26},
year = {2019}
}
@article{Annenkov2018,
abstract = {It is found that multi-cycle pulses of high-power coherent terahertz radiation can be efficiently generated in a plasma by counterstreaming long-pulse electron beams driving potential plasma waves via the two-stream instability. Instead of the well-known three-wave interaction processes between oblique beam-driven modes, we propose to generate electromagnetic radiation near the doubled plasma frequency due to the novel and much more efficient mechanism based on the head-on collision of longitudinal plasma waves with mismatching potential profiles. It is shown that this radiation mechanism can be implemented experimentally either by the collision of low-density electron beams with different transverse sizes or by the counter injection of denser equal-size beams unstable against filamentation perturbations. Particle-in-cell simulations for kiloampere electron beams capable of focusing into millimeter-scale sizes demonstrate the possibility to reach the high efficiency of beams-to-THz power conversion (3%–7%...},
author = {Annenkov, V. V. and Berendeev, E. A. and Timofeev, I. V. and Volchok, E. P.},
doi = {10.1063/1.5048245},
issn = {1070-664X},
journal = {Physics of Plasmas},
keywords = {plasma electromagnetic wave propagation,plasma simulation},
mendeley-groups = {Articles/2020/Ber_proc,Disser1},
month = {nov},
number = {11},
pages = {113110},
publisher = {AIP Publishing LLC},
title = {{High-power terahertz emission from a plasma penetrated by counterstreaming different-size electron beams}},
url = {http://aip.scitation.org/doi/10.1063/1.5048245},
volume = {25},
year = {2018}
}
@article{Louson,
  title={The physics of charged-particle beams},
  author={Lawson, John David},
  year={1977}
}
@article{UltraSAM,
  title={ULTRASAM-2D code for simulation of electron guns with ultra high precision},
  author={Ivanov, AV and Tiunov, MA},
  journal={Proceeding of EPAC-2002, Paris},
  pages={1634--1636},
  year={2002}
}
@techreport{ASTRA,
  title={Recent improvements to the ASTRA particle tracking code},
  author={Flottmann, Klaus and Lidia, Steven and Piot, Philippe},
  year={2003},
  institution={Lawrence Berkeley National Lab.(LBNL), Berkeley, CA (United States)}
}
@inproceedings{SLANS,
  title={An interactive code SUPERLANS for evaluation of RF-cavities and acceleration structures},
  author={Myakishev, DG and Yakovlev, VP},
  booktitle={Conference Record of the 1991 IEEE Particle Accelerator Conference},
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  year={1991},
  organization={IEEE}
}
@inproceedings{DEAP,
  title={Deap: A python framework for evolutionary algorithms},
  author={De Rainville, Fran{\c{c}}ois-Michel and Fortin, F{\'e}lix-Antoine and Gardner, Marc-Andr{\'e} and Parizeau, Marc and Gagn{\'e}, Christian},
  booktitle={Proceedings of the 14th annual conference companion on Genetic and evolutionary computation},
  pages={85--92},
  year={2012}
}
@online{KENV,
  author={Fedorov, VV and Nikiforov, DA and Petrenko, AV},
  title={{KENV} Kapchinsky Envelope code},
  year={2019},
  note={\url{https://github.com/fuodorov/kenv}},
  urldate={2024-01-01}
}
@online{REDPIC,
  author={Fedorov, VV and Nikiforov, DA},
  title={{REDPIC} Relativistic Difference Scheme Particles-In-Cell},
  year={2020},
  note={\url{https://github.com/fuodorov/redpic}},
  urldate={2024-01-01}
}
@ARTICLE{2020SciPy,
  author  = {Virtanen, Pauli and Gommers, Ralf and Oliphant, Travis E. and
            Haberland, Matt and Reddy, Tyler and Cournapeau, David and
            Burovski, Evgeni and Peterson, Pearu and Weckesser, Warren and
            Bright, Jonathan and {van der Walt}, St{\'e}fan J. and
            Brett, Matthew and Wilson, Joshua and Millman, K. Jarrod and
            Mayorov, Nikolay and Nelson, Andrew R. J. and Jones, Eric and
            Kern, Robert and Larson, Eric and Carey, C J and
            Polat, {\.I}lhan and Feng, Yu and Moore, Eric W. and
            {VanderPlas}, Jake and Laxalde, Denis and Perktold, Josef and
            Cimrman, Robert and Henriksen, Ian and Quintero, E. A. and
            Harris, Charles R. and Archibald, Anne M. and
            Ribeiro, Ant{\^o}nio H. and Pedregosa, Fabian and
            {van Mulbregt}, Paul and {SciPy 1.0 Contributors}},
  title   = {{{SciPy} 1.0: Fundamental Algorithms for Scientific
            Computing in Python}},
  journal = {Nature Methods},
  year    = {2020},
  volume  = {17},
  pages   = {261--272},
  adsurl  = {https://rdcu.be/b08Wh},
  doi     = {10.1038/s41592-019-0686-2},
}
@article{Logatchev2011,
author = {Logatchev, Pavel and Malyutin, Dmitriy and Starostenko, A.},
year = {2011},
month = {01},
pages = {1-27},
title = {Application of a low-energy electron beam as a tool of nondestructive diagnostics of intense charged-particle beams},
volume = {51},
journal = {Instruments and Experimental Techniques},
doi = {10.1134/S0020441208010016}
}
@article{nikiforov2020high,
  title={High-current electron-beam transport in the LIA-5 Linear Induction Accelerator},
  author={Nikiforov, DA and Blinov, MF and Fedorov, VV and Petrenko, AV and Logachev, PV and Bak, PA and Zhivankov, KI and Ivanov, AV and Starostenko, AA and Pavlov, OA and others},
  journal={Physics of Particles and Nuclei Letters},
  volume={17},
  pages={197--203},
  year={2020},
  publisher={Springer}
}
@article{nikiforov2020highru,
  title={Транспортировка сильноточного электронного пучка в линейном индукционном ускорителе ЛИУ-5},
  author={Никифоровa, ДА and Блиновa, МФ and Федоровa, ВВ and Петренкоa, АВ and Логачевa, ПВ and Бакa, ПА and Живанковa, КИ and Ивановa, АВ and Старостенкоa, АА and Павловa, ОА and others},
  journal={Письма в журнал Физика элементарных частиц и атомного ядра},
  language={russian},
  volume={17},
  number={2/227},
  pages={158},
  year={2020},
  publisher={Объединенный институт ядерных исследований}
}
@INPROCEEDINGS{9717608,
  author={Sinitsky, S.L. and Sandalov, E.S. and Skovorodin, D.I. and Anikeev, M.A. and Atlukhanov, M.G. and Bak, P.A. and Blinov, M.F. and Burdakov, A.V. and Danilov, V.V. and Fedorov, V.V. and Kurkuchekov, V.V. and Logachev, P.V. and Nikiforov, D.A. and Ottmar, A.V. and Petrenko, A.V. and Trunev, Yu.A. and Zhivankov, K.I. and Kolesnikov, P.A.},
  booktitle={2020 IEEE International Conference on Plasma Science (ICOPS)},
  title={High Current Electron Beam Transport and Focusing at the Linear Induction Accelerator},
  year={2020},
  volume={},
  number={},
  pages={191-191},
  keywords={Electron beams;Conferences;Focusing;Plasmas},
  doi={10.1109/ICOPS37625.2020.9717608}}
@article{Nikiforov_2021,
doi = {10.1088/1748-0221/16/11/P11024},
url = {https://dx.doi.org/10.1088/1748-0221/16/11/P11024},
year = {2021},
month = {nov},
publisher = {IOP Publishing},
volume = {16},
number = {11},
pages = {P11024},
author = {D.A. Nikiforov and A.V. Petrenko and S.L. Sinitsky and P.A. Bak and D.I. Skovorodin and P.V. Logachev and K.I. Zhivankov and E.S. Sandalov and O.I. Meshkov and A.V. Ivanov and V.V. Fuodorov and A.A. Starostenko and O.A. Pavlov and G.I. Kuznetsov and A.A. Krylov and D.A. Starostenko and O.A. Nikitin and A.R. Akhmetov},
title = {Investigation of high current electron beam dynamics in linear induction accelerator for creation of a high-power THz radiation source},
journal = {Journal of Instrumentation},
abstract = {The work addresses the use of electron beam produced by the linear induction accelerator to generate terahertz radiation pulses of 100 MW power level based on a free electron laser scheme. The beam parameters required for efficient generation are given. The features of transverse beam dynamics when transporting the beam through the linac are investigated. Emphasis is put on the electron injector which geometry and operation parameters mainly determine the beam characteristics at the linac exit. Most of the possible factors contributing to the beam emittance gain in the accelerator are considered. The obtained analytical estimates are compared to the numerical simulation results. The experimental results on compressing and transporting the beam having the electron energy of 5 MeV and the current of 1 kA in the transport system of free electron laser are presented.}
}
@Book{kenv_patent,
  title                    = {KENV, Свидетельство о государственной регистрации программы для ЭВМ №~2024611244 от 18.01.2024},
  author                   = {Федоров, В. В. and Никифоров, Д. А. and Петренко, А. В.},
  year                     = {2024},
  language                 = {russian},
  url = {https://fips.ru/EGD/f842405a-9bc0-422f-8c1e-c945356a93f9},
}
@Book{redpic_patent,
  title                    = {REDPIC, Свидетельство о государственной регистрации программы для ЭВМ №~2023688768 от 25.12.2023},
  author                   = {Федоров, В. В. and Никифоров, Д. А.},
  year                     = {2023},
  language                 = {russian},
  url = {https://fips.ru/EGD/4182c66d-0ac9-4330-af31-cb2154704aa9},
}
@misc{martin2017clean,
  title={Clean architecture},
  author={Martin, Robert C},
  year={2017},
  publisher={Prentice Hall}
}
@book{shalloway2005design,
  title={Design patterns explained: A new perspective on object-oriented design, 2/E},
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  year={2005},
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}
@book{meyer1997object,
  title={Object-oriented software construction},
  author={Meyer, Bertrand},
  volume={2},
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}
@article{hodges1958significance,
  title={The significance probability of the Smirnov two-sample test},
  author={Hodges Jr, JL},
  journal={Arkiv f{\"o}r matematik},
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}
@article{merkel2014docker,
  title={Docker: lightweight linux containers for consistent development and deployment},
  author={Merkel, Dirk and others},
  journal={Linux j},
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  year={2014}
}
@online{pytest,
  title={{PyTest} helps you write better programs},
  url={https://github.com/pytest-dev/pytest/},
  urldate={2024-01-01}
}
@online{unittest,
  title={{UnitTest} Unit testing framework},
  url={https://docs.python.org/3/library/unittest.html},
  urldate={2024-01-01}
}
@online{github_actions,
  title={{GitHub Actions} is generally available},
  url={https://github.blog/changelog/2019-11-11-github-actions-is-generally-available/},
  urldate={2024-01-01}
}
@online{flake8,
  title={{Flake8} is a python tool that glues together pycodestyle, pyflakes, mccabe, and third-party plugins to check the style and quality of some python code},
  url={https://github.com/PyCQA/flake8},
  urldate={2024-01-01}
}
@online{pylint,
  title={{PyLint} It's not just a linter that annoys you!},
  url={https://github.com/pylint-dev/pylint},
  urldate={2024-01-01}
}
@online{numba,
  title={{Numba} A Just-In-Time Compiler for Numerical Functions in Python},
  url={https://github.com/numba/numba},
  urldate={2024-01-01}
}