The GOLEM tokamak bibliography The tokamak GOLEM team January 10, 2023 Official GOLEM Articles [1] J. Cerovsky, O. Ficker, V. Svoboda, E. Macusova, J. Mlynar, J. Caloud, V. Weinzettl, and M. Hron, “Progress in HXR diagnostics at Golem and COMPASS tokamaks,” Journal of Instrumentation, vol. 17, no. 01, p. C01033, 2022. doi: 10.1088/ 1748-0221/17/01/c01033. [Online]. Available: https://doi.org/10.1088/1748-0221/17/01/c01033. [2] S. Kulkov, M. Marcisovsky, P. Svihra, M. Tunkl, M. van Beuzekom, J. Caloud, J. Cerovsky, O. Ficker, E. Macusova, J. Mlynar, V. Weinzettl, and V. Svoboda, “Detection of runaway electrons at the COMPASS tokamak using a Timepix3-based semiconductor detector,” Journal of Instrumentation, vol. 17, no. 02, P02030, 2022. doi: 10.1088/1748-0221/17/02/p02030. [Online]. Available: https://doi.org/10.1088/1748-0221/17/02/p02030. [3] G Sarancha, V Svoboda, J Stockel, and A Melnikov, “Magnetic turbulence and long-range correlation studies in the Golem tokamak,” Journal of Physics: Conference Series, vol. 2055, no. 1, p. 012 003, 2021. doi: 10.1088/1742-6596/2055/1/012003. [Online]. Available: https://doi.org/10.1088/1742-6596/2055/1/012003. [4] G. Sarancha, A. Drozd, I. Emekeev, S. Ganin, D. Kropachkova, I. Kudashev, V. Kulagin, M. Lauerova, A. Melnikov, N. Sergeev, O. Krokhalev, J. Stockel, and V. Svoboda, “Hydrogen and helium discharges in the Golem tokamak,” Problems Of Atomic Science And Technology, Ser. Thermonuclear Fusion, vol. 4, pp. 92–110, 2021. doi: 10.21517/0202-3822-2021-444-92-110. [Online]. Available: https://doi.org/10.21517/0202-3822-2021-44-4-92-110. [5] Y. Siusko, V. Svoboda, J. Stockel, I. Garkusha, D. Solyakov, I. Girka, V. Volkov, D. Bondar, V. Kondratenko, A. Boychenko, A. Krupka, D. Boloto, D. Drozdov, O. Salmin, and A. Shchibrya, “Breakdown phase in the Golem tokamak and its impact on plasma performance,” Ukrainian Journal of Physics, vol. 66, no. 3, pp. 231–239, 2021. [Online]. Available: https://ujp. bitp.kiev.ua/index.php/ujp/article/view/2020180. [6] M. Gryaznevich, J. Stöckel, G. V. Oost, E. D. Bosco, V. Svoboda, A. Melnikov, R. Kamendje, A. Malaquias, G. Mank, and R. Miklaszewski, “Contribution of joint experiments on small tokamaks in the framework of IAEA coordinated research projects to mainstream fusion research,” Plasma Science and Technology, vol. 22, no. 5, p. 055 102, 2020. doi: 10.1088/20586272/ab6d4d. [Online]. Available: https://doi.org/10.1088%2F2058-6272%2Fab6d4d. [7] L. Novotny, J. Cerovsky, P. Dhyani, O. Ficker, M. Havranek, M. Hejtmanek, Z. Janoska, V. Kafka, S. Kulkov, M. Marcisovska, M. Marcisovsky, G. Neue, P. Svihra, V. Svoboda, L. Tomasek, M. Tunkl, and V. Vrba, “Runaway electron diagnostics using silicon strip detector,” Journal of Instrumentation, vol. 15, no. 07, pp. C07015–C07015, 2020. doi: 10.1088/17480221/15/07/c07015. [Online]. Available: https://doi.org/10.1088%2F1748-0221%2F15%2F07%2Fc07015. [8] P. Dhyani, V. Svoboda, V. Istokskaia, J. Mlynar, J. Cerovsky, O. Ficker, and V. Linhart, “Study of runaway electrons in Golem tokamak,” Journal of Instrumentation, vol. 14, no. 09, pp. C09029–C09029, 2019. doi: 10.1088/1748-0221/14/09/c09029. [Online]. Available: https://doi.org/10.1088%2F1748-0221%2F14%2F09%2Fc09029. [9] V. Svoboda, M. Zhekova, M. Dimitrova, P. Marinova, A. Podolnı́k, and J. Stockel, “Operational domain in hydrogen plasmas on the Golem tokamak,” Journal of Fusion Energy, 2019, issn: 1572-9591. doi: 10.1007/s10894-019-00215-7. [10] P. Svihra, D. Bren, A. Casolari, J. Cerovsky, P. Dhyani, M. Farnik, O. Ficker, M. Havranek, M. Hejtmanek, Z. Janoska, V. Kafka, P. Kulhanek, V. Linhart, E. Macusova, M. Marcisovska, M. Marcisovsky, J. Mlynar, G. Neue, L. Novotny, V. Svoboda, L. Tomasek, J. Urban, P. Vancura, J. Varju, V. Vrba, and V. Weinzettl, “Runaway electrons diagnostics using segmented semiconductor detectors,” Fusion Engineering and Design, 2018, issn: 0920-3796. doi: 10.1016/j.fusengdes.2018.12.054. [11] O. Grover, J. Kocman, M. Odstrcil, T. Odstrcil, M. Matusu, J. Stockel, V. Svoboda, G. Vondrasek, and J. Zara, “Remote operation of the Golem tokamak for fusion education,” Fusion Engineering and Design, vol. 112, pp. 1038–1044, 2016, issn: 0920-3796. doi: 10.1016/j.fusengdes.2016.05.009. [12] V. Svoboda, A. Dvornova, R. Dejarnac, M. Prochazka, S. Zaprianov, R. Akhmethanov, M. Bogdanova, M. Dimitrova, Z. Dimitrov, O. Grover, L. Hlavata, K. Ivanov, K. Kruglov, P. Marinova, P. Masherov, A. Mogulkin, J. Mlynar, J. Stockel, and A. Volynets, “Remote operation of the Golem tokamak with hydrogen and helium plasmas,” Journal of Physics: Conference Series, vol. 768, no. 1, 2016. doi: 10.1088/1742- 6596/768/1/012002. [Online]. Available: https://www.scopus.com/ inward/record.uri?eid=2-s2.0-84996848706&doi=10.1088%2f1742-6596%2f768%2f1%2f012002&partnerID=40&md5= e2758016f6bdd51be8c02e6f972a374e. [13] M. Gryaznevich, G. V. Oost, J. Stöckel, R. Kamendje, B. Kuteev, A. Melnikov, T. Popov, V. Svoboda, and T. I. C. Teams, “Contribution to fusion research from IAEA coordinated research projects and joint experiments,” Nuclear Fusion, vol. 55, no. 10, p. 104 019, 2015. doi: 10.1088/0029-5515/55/10/104019. 1 [14] T. Markovic, M. Gryaznevich, I. Duran, V. Svoboda, and R. Panek, “Development of 3D ferromagnetic model of tokamak core with strong toroidal asymmetry,” Fusion Engineering and Design, vol. 96-97, pp. 302–305, 2015, issn: 0920-3796. doi: 10 .1016 / j . fusengdes . 2015 . 03 . 041. [Online]. Available: http : / / www . sciencedirect . com / science / article / pii / S0920379615002100. [15] V. Svoboda, J. Kocman, O. Grover, J. Krbec, and J. Stockel, “Remote operation of the vertical plasma stabilization @ the Golem tokamak for the plasma physics education,” Fusion Engineering and Design, vol. 96-97, pp. 974–979, 2015, issn: 09203796. doi: 10.1016/j.fusengdes.2015.06.044. [Online]. Available: http://www.sciencedirect.com/science/article/ pii/S0920379615300740. [16] M. Gryaznevich, V. Svoboda, J. Stockel, A. Sykes, N. Sykes, D. Kingham, G. Hammond, P. Apte, T. Todd, S. Ball, S. Chappell, Z. Melhem, I. Duran, K. Kovarik, O. Grover, T. Markovic, M. Odstrcil, T. Odstrcil, A. Sindlery, G. Vondrasek, J. Kocman, M. Lilley, P. de Grouchy, and H.-T. Kim, “Progress in application of high temperature superconductor in tokamak magnets,” Fusion Engineering and Design, vol. 88, no. 9-10, pp. 1593 –1596, 2013, issn: 0920-3796. doi: 10.1016/j.fusengdes.2013. 01.101. [Online]. Available: http://www.sciencedirect.com/science/article/pii/S0920379613001117. [17] T. Markovic, M. Gryaznevich, I. Duran, V. Svoboda, and G. Vondrasek, “Evaluation of applicability of 2D iron core model for two-limb configuration of Golem tokamak,” Fusion Engineering and Design, vol. 88, no. 6-8, pp. 835 –838, 2013, issn: 0920-3796. doi: 10.1016/j.fusengdes.2013.02.142. [Online]. Available: http://www.sciencedirect.com/science/ article/pii/S0920379613002573. [18] T. Odstrcil, M. Odstrcil, O. Grover, V. Svoboda, I. Duran, and J. Mlynar, “Low cost alternative of high speed visible light camera for tokamak experiments,” Review of Scientific Instruments, vol. 83, no. 10, 10E505, 2012. doi: 10.1063/1.4731003. [Online]. Available: http://scitation.aip.org/content/aip/journal/rsi/83/10/10.1063/1.4731003. [19] V. Svoboda, B. Huang, J. Mlynar, G. Pokol, J. Stockel, and G. Vondrasek, “Multi-mode Remote Participation on the Golem Tokamak,” Fusion Engineering and Design, vol. 86, no. 6-8, pp. 1310–1314, 2011, issn: 0920-3796. doi: {10 . 1016 / j . fusengdes.2011.02.069}. Conference proceedings [20] P. Macha, M. Pokorny, D. Kropackova, M.Humpolec, J. Chlum, K. Wen, M. Tunkl, M. Lauerova, J. Brotankova, J. Stockel, V. Svoboda, S. Kulkov, A. Podolnik, J. Caloud, and S. Malec, “Tokamak Golem for fusion education - chapter 13,” ser. Europhysics conference abstracts, vol. July, 2022. [Online]. Available: https://indico.fusenet.eu/event/28/contributions/ 164/attachments/178/1152/EPS_2022_golem_article.pdf. [21] P. Macha, v. Svoboda, J. Stockel, J. Adamek, and J. Seidl, “Self-induced transport barrier in the helium plasma on the tokamak Golem,” ser. Europhysics conference abstracts, vol. July, 2022. [Online]. Available: https://indico.fusenet.eu/ event/28/contributions/64/attachments/78/1153/EPS_2022_article.pdf. [22] S. Kulkov, M. Marcisovsky, P. Svihra, O. Ficker, J. Cerovsky, E. Macusova, V. Weinzettl, M. Beuzekom, M. Fransen, D. Bren, V. Linhart, V. Svoboda, and M. Tunkl, “Runaway electron study at the COMPASS tokamak using the Timepix3-based silicon pixel detector with SPIDR 10 GBps readout,” ser. Europhysics conference abstracts, vol. July, 2021, P3.1006, isbn: 979-10-96389-13-1. [Online]. Available: http://ocs.ciemat.es/EPS2021PAP/pdf/P3.1006.pdf. [23] P. Macha, K. Hromasova, D. Kropackova, M. Lauerova, A. Socha, J. Malinak, D. Cipciar, J. Cecrdle, V. Svoboda, J. Stockel, J. Adamek, F. Papousek, and L. Lobko, “Tokamak Golem for fusion education - chapter 12,” ser. Europhysics conference abstracts, vol. July, 2021, P4.1028, isbn: 979-10-96389-13-1. [Online]. Available: http://ocs.ciemat.es/EPS2021PAP/pdf/ P4.1028.pdf. [24] Malec, V. Linhart, and V. Svoboda, “Correlations in signals generated by runaway electrons in the golem tokamak measured using the timepix3 detection modules,” in 2021 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC), 2021, pp. 1–6. doi: 10.1109/NSS/MIC44867.2021.9875920. [25] P. Dhyani, V. Svoboda, V. Istokskaia, J. Mlynář, J. Cerovský, O. Ficker, and V. Linhart, “Design and development of probe for the measurements of runaway electrons inside the Golem tokamak plasma edge,” ser. Europhysics conference abstracts, vol. July, 2019, P1.1016, isbn: 979-10-96389-11-7. [Online]. Available: http://ocs.ciemat.es/EPS2019PAP/pdf/P1.1016. pdf. [26] O. Grover, V. Svoboda, and J. Stockel, “Online experimentation at the Golem tokamak,” in 2019 5th Experiment International Conference (exp.at’19), 2019, pp. 220–225. doi: 10.1109/EXPAT.2019.8876482. [Online]. Available: https://ieeexplore. ieee.org/document/8876482. [27] S. Kulkov, P. Mácha, V. Istokskkaia, D. Kropáčková, F. Papoušek, J. Adámek, J. Cerovský, O. Ficker, O. Grover, K. Jiráková, J. Stöckel, and V. Svoboda, “Tokamak Golem for fusion education - chapter 10,” ser. Europhysics conference abstracts, vol. July, 2019, P1.1068, isbn: 979-10-96389-11-7. [Online]. Available: http://ocs.ciemat.es/EPS2019PAP/pdf/P1.1068. pdf. [28] O. Grover and V. Svoboda and J. Stockel, “Remote demonstration of the Golem tokamak,” in 2019 5th Experiment International Conference (exp.at’19), 2019, pp. 239–240. doi: 10 . 1109 / EXPAT . 2019 . 8876584. [Online]. Available: https : //ieeexplore.ieee.org/document/8876584. [29] V. Istokskaia, M. Shkut, J. Cerovsky, M. Farnik, O. Grover, L. Hudec, P. Macha, J. Krbec, V. Svoboda, J. Stockel, and J. Adamek, “Tokamak Golem for fusion education - chapter 9,” vol. July, 2018, pp. 261–264. [Online]. Available: http : //golem.fjfi.cvut.cz/wiki/Presentations/Conferences/EPS/45th_Prague_2018/paper.pdf. [30] V. Linhart, D. Bren, A. Casolari, J. Čeřovský, M. Farnı́k, O. Ficker, M. Hetflejš, M. Hron, J. 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Tunkl, “Development of a new runaway electron diagnostics method based on strip semiconductor detectors,” Master Thesis, 2022. [Online]. Available: http : / / golem . fjfi . cvut . cz / wiki / Presentations / Students / MasterThesis / 22TunklMarek.pdf. [41] D. Cipciar, “Ion and electron temperature study in the edge plasma of the tokamak device,” Master Thesis, 2021. [Online]. Available: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/MasterThesis/21DarioCipciar.pdf. [42] P. Macha, “Studium okrajového plazmatu v tokamacı́ch pomocı́ pokročilých elektrických sond.,” Master Thesis, 2020. [Online]. Available: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/MasterThesis/20MachaPetr.pdf. [43] B. Leitl, “Tomografická rekonstrukce profilu vyzařovánı́ plazmatu na tokamaku Golem,” Master Thesis, 2019. [Online]. Available: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/MasterThesis/19LeitlBorek.pdf. [44] J. Kocman, “Řı́zenı́ polohy plazmatického prstence na tokamaku Golem,” Master Thesis, 2015. [Online]. Available: http: //golem.fjfi.cvut.cz/wiki/Presentations/Students/MasterThesis/15KocmanJindrich.pdf. [45] L. Matěna, “Microwave interferometry on the tokamak Golem,” Master Thesis, 2015. [Online]. Available: http://golem. fjfi.cvut.cz/wiki/Presentations/Students/MasterThesis/15MatenaLukas.pdf. [46] T. Markovič, “Measurements of magnetic fields on the tokamak Golem.,” Master Thesis, 2012. [Online]. Available: http: //golem.fjfi.cvut.cz/wiki/Presentations/Students/MasterThesis/12MarkovicTomas.pdf. Bachelor projects [47] J. Chlum, “Implementation of tomographic inversion on the Golem tokamak.,” Bachelor project, 2022. [Online]. Available: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/BachelorProjects/22ChlumJakub.pdf. [48] A. Kubincova, “Advanced plasma vertical position reconstruction on the Golem tokamak.,” Bachelor project, 2021. [Online]. Available: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/BachelorProjects/21KubincovaAdela.pdf. [49] J. Malinak, “Electron temperature measurements using rail probe on the tokamak Golem.,” Bachelor project, 2021. [Online]. Available: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/BachelorProjects/21MalinakJiri.pdf. [50] F. Papousek, “Impact of swept edge plasma potential biasing on turbulence in tokamaks.,” Bachelor project, 2020. [Online]. Available: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/BachelorProjects/20PapousekFilip.pdf. [51] P. Macha, “Měřenı́ parametrů plazmatu pomocı́ kombinované ball-pen a langmuirovy sondy na tokamaku Golem.,” Bachelor project, 2018. [Online]. Available: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/BachelorProjects/ 18MachaPetr.pdf. [52] T. Okonechnikova, “Prezentace tokamaku Golem pomocı́ technologie X3DOM,” Bachelor project, 2016. [Online]. 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