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The GOLEM tokamak bibliography
The tokamak GOLEM team
September 25, 2022

Official GOLEM Articles
[Svo+11]

V. Svoboda et al. “Multi-mode Remote Participation on the GOLEM Tokamak”. In: Fusion Engineering and Design
86.6-8 (2011), 1310–1314. issn: 0920-3796. doi: {10.1016/j.fusengdes.2011.02.069}.

[Ods+12]

T. Odstrcil et al. “Low cost alternative of high speed visible light camera for tokamak experimentsa)”. In: Review
of Scientific Instruments 83.10, 10E505 (2012), pp. –. doi: http://dx.doi.org/10.1063/1.4731003. url: http:
//scitation.aip.org/content/aip/journal/rsi/83/10/10.1063/1.4731003.

[Gry+13]

M. Gryaznevich et al. “Progress in application of high temperature superconductor in tokamak magnets”. In: Fusion
Engineering and Design 88.9-10 (2013), pp. 1593 –1596. issn: 0920-3796. doi: http://dx.doi.org/10.1016/j.
fusengdes.2013.01.101. url: http://www.sciencedirect.com/science/article/pii/S0920379613001117.

[Mar+13]

T. Markovic et al. “Evaluation of applicability of 2D iron core model for two-limb configuration of GOLEM tokamak”.
In: Fusion Engineering and Design 88.6-8 (2013), pp. 835 –838. issn: 0920-3796. doi: http://dx.doi.org/10.1016/
j.fusengdes.2013.02.142. url: http://www.sciencedirect.com/science/article/pii/S0920379613002573.

[Gry+15]

M. Gryaznevich et al. “Contribution to fusion research from IAEA coordinated research projects and joint experiments”.
In: Nuclear Fusion 55.10 (2015), p. 104019. doi: https://doi.org/10.1088/0029-5515/55/10/104019.

[Mar+15]

T. Markovic et al. “Development of 3D ferromagnetic model of tokamak core with strong toroidal asymmetry”. In:
Fusion Engineering and Design 96-97 (2015), pp. 302–305. issn: 0920-3796. doi: http://dx.doi.org/10.1016/j.
fusengdes.2015.03.041. url: http://www.sciencedirect.com/science/article/pii/S0920379615002100.

[Svo+15a]

V. Svoboda et al. “Remote operation of the vertical plasma stabilization @ the GOLEM tokamak for the plasma
physics education”. In: Fusion Engineering and Design 96-97 (2015), pp. 974–979. issn: 0920-3796. doi: http://dx.
doi.org/10.1016/j.fusengdes.2015.06.044. url: http://www.sciencedirect.com/science/article/pii/
S0920379615300740.

[Gro+16]

O. Grover et al. “Remote operation of the GOLEM tokamak for Fusion Education”. In: Fusion Engineering and Design
112 (2016), pp. 1038–1044. issn: 0920-3796. doi: http://dx.doi.org/10.1016/j.fusengdes.2016.05.009.

[Svo+16]

V. Svoboda et al. “Remote operation of the GOLEM tokamak with hydrogen and helium plasmas”. In: Journal of
Physics: Conference Series 768.1 (2016). doi: 10.1088/1742-6596/768/1/012002. url: https://www.scopus.com/
inward/record.uri?eid=2-s2.0-84996848706&doi=10.1088%2f1742-6596%2f768%2f1%2f012002&partnerID=40&
md5=e2758016f6bdd51be8c02e6f972a374e.

[Svi+18]

Peter Svihra et al. “Runaway electrons diagnostics using segmented semiconductor detectors”. In: Fusion Engineering
and Design (2018). issn: 0920-3796. doi: https://doi.org/10.1016/j.fusengdes.2018.12.054.

[P. 19]

P. Dhyani and V. Svoboda and V. Istokskaia and J. Mlynar and J. Cerovsky and O. Ficker and V. Linhart. “Study
of Runaway Electrons in GOLEM Tokamak”. In: Journal of Instrumentation 14.09 (2019), pp. C09029–C09029. doi:
10.1088/1748-0221/14/09/c09029. url: https://doi.org/10.1088%2F1748-0221%2F14%2F09%2Fc09029.

[Svo+19]

Vojtech Svoboda et al. “Operational Domain in Hydrogen Plasmas on the GOLEM Tokamak”. In: Journal of Fusion
Energy (2019). issn: 1572-9591. doi: https://doi.org/10.1007/s10894-019-00215-7.

[GRY+20]

M GRYAZNEVICH et al. “Contribution of joint experiments on small tokamaks in the framework of IAEA coordinated
research projects to mainstream fusion research”. In: Plasma Science and Technology 22.5 (2020), p. 055102. doi:
10.1088/2058-6272/ab6d4d. url: https://doi.org/10.1088%2F2058-6272%2Fab6d4d.

[Nov+20]

L. Novotny et al. “Runaway electron diagnostics using silicon strip detector”. In: Journal of Instrumentation 15.07
(2020), pp. C07015–C07015. doi: 10.1088/1748-0221/15/07/c07015. url: https://doi.org/10.1088%2F17480221%2F15%2F07%2Fc07015.

[Sar+21a]

G Sarancha et al. “Magnetic turbulence and long-range correlation studies in the GOLEM tokamak”. In: Journal
of Physics: Conference Series 2055.1 (2021), p. 012003. doi: 10.1088/1742- 6596/2055/1/012003. url: https:
//doi.org/10.1088/1742-6596/2055/1/012003.

[Sar+21b]

G.A. Sarancha et al. “Hydrogen And Helium Discharges In The Golem Tokamak”. In: Problems Of Atomic Science
And Technology, Ser. Thermonuclear Fusion 4 (2021), pp. 92–110. doi: 10.21517/0202-3822-2021-44-4-92-110.
url: https://doi.org/10.21517/0202-3822-2021-44-4-92-110.

1

[Siu+21]

Y. Siusko et al. “Breakdown phase in the golem tokamak and its impact on plasma performance”. English. In: Ukrainian
Journal of Physics 66.3 (2021), pp. 231–239. url: https://ujp.bitp.kiev.ua/index.php/ujp/article/view/
2020180.

[Cer+22]

J. Cerovsky et al. “Progress in HXR diagnostics at GOLEM and COMPASS tokamaks”. In: Journal of Instrumentation
17.01 (2022), p. C01033. doi: 10 . 1088 / 1748 - 0221 / 17 / 01 / c01033. url: https : / / doi . org / 10 . 1088 / 1748 0221/17/01/c01033.

[Kul+22]

S. Kulkov et al. “Detection of runaway electrons at the COMPASS tokamak using a Timepix3-based semiconductor
detector”. In: Journal of Instrumentation 17.02 (2022), P02030. doi: 10 . 1088 / 1748 - 0221 / 17 / 02 / p02030. url:
https://doi.org/10.1088/1748-0221/17/02/p02030.

Conference proceedings
[Svo+10]

V. Svoboda et al. “Former Tokamak CASTOR becomes remotely controllable GOLEM at the Czech Technical University in Prague ”. In: Europhysics Conference Abstracts. 37th EPS Conference on Plasma Physics (online: http:
// ocs. ciemat. es/ EPS2010PAP/ pdf/ P2. 111. pdf ). Vol. 34A. 2010. isbn: 2-914771-62-2.

[Bro+11]

E. Bromova et al. “The GOLEM Tokamak for Fusion Education ”. In: Europhysics Conference Abstracts. 38th EPS
Conference on Plasma Physics (online: http: // ocs. ciemat. es/ EPS2011PAP/ pdf/ P1. 021. pdf ). Vol. 35G. 2011.
isbn: 2-914771-68-1.

[SS11]

V. Svoboda and J. Stöckel. “Tokamak GOLEM Remotely for Worldwide Fusion Education”. English. In: Proceedings:
SEFI - PTEE 2011. Mannheim: Hochschule Mannheim - University Of Applied Sciences, 2011, pp. –. isbn: 978-3931569-18-1. url: http://sefi11.hs- mannheim.de/index.php?option=com_content\&view=article\&id=27\
&Itemid=27.

[Bal+12]

S. Ball et al. “First results from tests of high temperature superconductor magnets on tokamak”. In: Europhysics
Conference Abstracts. 39th EPS Conference on Plasma Physics (online: http: // ocs. ciemat. es/ epsicpp2012pap/
pdf/ P2. 052. pdf ). Vol. 36F. 2012.

[Svo+12]

V. Svoboda et al. “ Recent results from GOLEM tokamak. ’Indeed, you can teach an old dog some new tricks. ”
In: Europhysics Conference Abstracts. 39th EPS Conference on Plasma Physics (online: http: // ocs. ciemat. es/
epsicpp2012pap/ pdf/ P2. 059. pdf ). Vol. 36F. 2012.

[HA+13]

D. Hernandez-Arriaga et al. “Tokamak GOLEM for fusion education - chapter 4 ”. In: Europhysics Conference Abstracts. 40th EPS Conference on Plasma Physics (online: http: // ocs. ciemat. es/ EPS2013PAP/ pdf/ P2. 410. pdf ).
Vol. 2013. isbn: 978-1-63266-310-8.

[Svo+13]

V. Svoboda et al. “Blind spectral unmixing and ion lines clustering of low resolution spectra based on non-negative
matrix decomposition””. English. In: 8th Workshop on Fusion Data Processing, Validation and Analysis. Ghent, 2013.
url: http://www.validation8.ugent.be/abstracts/Odstrcil_Tomas.pdf.

[OF14]

J. Kocman J. Krbec V. Loffelmann T. Markovic M. Matusu J. Stockel V. Svoboda J. Veverka G. Vondrasek O. Ficker
O. Grover. “Tokamak GOLEM for fusion education - chapter 5 ”. In: Europhysics Conference Abstracts. 41th EPS
Conference on Plasma Physics (online: http: // ocs. ciemat. es/ EPS2014PAP/ pdf/ P4. 141. pdf ). Vol. 38F. 2014.
isbn: 2-914771-90-8.

[Svo+15b]

V. Svoboda et al. “Tokamak GOLEM for fusion education - chapter 6”. English. In: 42nd European Physical Society
Conference on Plasma Physics. Mulhouse, FR, 2015. isbn: 2-914771-98-3. url: http://ocs.ciemat.es/EPS2015PAP/
pdf/P2.164.pdf.

[Dub16]

Ficker O. Grover O. Jiraková K. Leitl B. Okonechniková T. Stockel J. Svoboda V. Vondrasek G. Duban R. “Tokamak
GOLEM for fusion education - chapter 7 ”. In: Europhysics Conference Abstracts. 43th EPS Conference on Plasma
Physics (online: http: // ocs. ciemat. es/ EPS2016PAP/ html/ contrib. html ). Vol. 40A. europhysics conference
abstracts. 2016. isbn: 2-914771-99-1.

[Ist+18]

V. Istokskaia et al. “Tokamak GOLEM for fusion education - Chapter 9”. In: vol. 2018-July. cited By 0. 2018, pp. 261–
264. url: https : / / www . scopus . com / inward / record . uri ? eid = 2 - s2 . 0 - 85057830567 & partnerID = 40 & md5 =
a2c1fb87e3fca2414a7ff6fd7d995ffd.

[Lin+18]

V. Linhart et al. “First Measurement of X-rays Generated by Runaway Electrons in Tokamaks Using a TimePix3
Device with 1 mm thick Silicon Sensor”. In: 2018 IEEE Nuclear Science Symposium and Medical Imaging Conference
Proceedings (NSS/MIC). 2018, pp. 1–9. doi: 10.1109/NSSMIC.2018.8824534.

[Dhy19]

Dhyani, P., Svoboda, V., Istokskaia, V., Mlynář, J., Cerovský, J., Ficker, O., Linhart, V. “Design and development
of probe for the measurements of runaway electrons inside the golem tokamak plasma edge”. In: vol. 2019-July.
Europhysics conference abstracts. 2019, P1.1016. isbn: 979-10-96389-11-7. url: http://ocs.ciemat.es/EPS2019PAP/
pdf/P1.1016.pdf.

[GSS19a]

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. url: https :
//ieeexplore.ieee.org/document/8876482.

[GSS19b]

O. Grover, 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. url: https :
//ieeexplore.ieee.org/document/8876584.

[Kul19]

Kulkov, S., Mácha, P., Istokskkaia, V., Kropáčková, D., Papoušek, F., Adámek, J., Cerovský, J., Ficker, O., Grover,
O., Jiráková, K., Stöckel, J., Svoboda, V. “Tokamak GOLEM for fusion education - chapter 10”. In: vol. 2019-July.
Europhysics conference abstracts. 2019, P1.1068. isbn: 979-10-96389-11-7. url: http://ocs.ciemat.es/EPS2019PAP/
pdf/P1.1068.pdf.

[Kul21]

Kulkov, S., Marcisovsky, M., Svihra, P., Ficker, O., Cerovsky, J., Macusova, E., Weinzettl, V., Beuzekom, M., Fransen,
M. , Bren, D. , Linhart, V., , Svoboda, V., Tunkl, M. “Runaway electron study at the COMPASS tokamak using
the Timepix3-based silicon pixel detector with SPIDR 10 GBps readout”. In: vol. 2021-July. Europhysics conference
abstracts. 2021, P3.1006. isbn: 979-10-96389-13-1. url: http://ocs.ciemat.es/EPS2021PAP/pdf/P3.1006.pdf.

[Mac21]

Macha,P.,Hromasova, K., Kropackova,D., Lauerova, M., Socha, A., Malinak, J., Cipciar, D., Cecrdle, J., Svoboda,
V., Stockel, J., Adamek, J., Papousek, F., Lobko, L. “Tokamak GOLEM for fusion education - chapter 12”. In:
vol. 2021-July. Europhysics conference abstracts. 2021, P4.1028. isbn: 979-10-96389-13-1. url: http://ocs.ciemat.
es/EPS2021PAP/pdf/P4.1028.pdf.

[Mac22a]

Macha, P., M. Pokorny, D. Kropackova, M.Humpolec, J. Chlum, K. Wen, M. Tunkl, M. Lauerova, J. Brotankova, J.
Stockel, V. Svoboda, S. Kulkov, A. PodolnikJ. Caloud, S. Malec. “Tokamak GOLEM for fusion education - chapter
13”. In: vol. 2022-July. Europhysics conference abstracts. 2022. url: https : / / indico . fusenet . eu / event / 28 /
contributions/164/attachments/178/1152/EPS_2022_golem_article.pdf.

[Mac22b]

Macha,P., Svoboda, V., Stockel, J., Adamek, J., Seidl, J. “Self-induced transport barrier in the helium plasma on the
tokamak GOLEM”. In: vol. 2022-July. Europhysics conference abstracts. 2022. url: https://indico.fusenet.eu/
event/28/contributions/64/attachments/78/1153/EPS_2022_article.pdf.

Master thesis
[Marstb]

Markovič Tomáš. “Measurements of magnetic fields on the tokamak GOLEM.” Master thesis 2012. url: http://
golem.fjfi.cvut.cz/wiki/Library/GOLEM/MastThesis/12MarkovicTomas.pdf.

[Kocst]

Kocman, J. “Řı́zenı́ polohy plazmatického prstence na tokamaku GOLEM”. Master thesis 2015. url: http://golem.
fjfi.cvut.cz/wiki/Library/GOLEM/MastThesis/15KocmanJindrich.pdf.

[Matst]

Matěna, L. “Microwave interferometry on the tokamaku GOLEM”. Master thesis 2015. url: http://golem.fjfi.
cvut.cz/wiki/Library/GOLEM/MastThesis/15MatenaLukas.pdf.

[Leist]

Leitl, B. “Tomografická rekonstrukce profilu vyzařovánı́ plazmatu na tokamaku GOLEM”. Master thesis 2019. url:
http://golem.fjfi.cvut.cz/wiki/Library/GOLEM/MastThesis/19LeitlBorek.pdf.

[Mást]

Mácha Petr. “Studium okrajového plazmatu v tokamacı́ch pomocı́ pokročilých elektrických sond.” Master thesis 2020.
url: http://golem.fjfi.cvut.cz/wiki/Library/GOLEM/MastThesis/20MachaPetr.pdf.

[Darst]

Dario Cipciar. “Ion and electron temperature study in the edge plasma of the tokamak device”. Master thesis 2021.
url: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/MasterThesis/21DarioCipciar.pdf.

[Marsta]

Marek Tunkl. “Development of a new runaway electron diagnostics method based on strip semiconductor detectors”. Master thesis 2022. url: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/MasterThesis/
22TunklMarek.pdf.

Bachelor projects
[March]

Markovič Tomáš. “Magnetic field configurations and their measurement on tokamak GOLEM.” Bachelor project 2010.
url: http://golem.fjfi.cvut.cz/wiki/Library/GOLEM/BachThesis/10MarkovicTomas.pdf.

[Kocch]

Kocman Jindřich. “Zpětnovazebnı́ řı́zenı́ polohy na tokamaku GOLEM.” Bachelor project 2011. url: http://golem.
fjfi.cvut.cz/wiki/Library/GOLEM/BachThesis/11KocmanJindrich.pdf.

[Pluch]

Pluhař Ondřej. “Interactive model of tokamak GOLEM.” Bachelor project 2011. url: http://golem.fjfi.cvut.cz/
wiki/Library/GOLEM/BachThesis/11PluharOndrej.pdf.

[Dubch]

Duban Richard. “Měřenı́ rychlosti toku plazmatu na tokamaku GOLEM pomocı́ pole Machových sond.” Bachelor
project 2014. url: http://golem.fjfi.cvut.cz/wiki/Library/GOLEM/BachThesis/14DubanRichard.pdf.

[Leich]

Leitl Bořek. “Bolometrická měřenı́ na tokamaku GOLEM.” Bachelor project 2014. url: http://golem.fjfi.cvut.
cz/wiki/Library/GOLEM/BachThesis/14LeitlBorek.pdf.

[Match]

Matušů Martin. “Virtual model of tokamak GOLEM with real physical core”. Bachelor project 2014. url: http :
//golem.fjfi.cvut.cz/wiki/Library/GOLEM/BachThesis/14MatusuMartin.pdf.

[Vevch]

Veverka Jakub. “Studium počátečnı́ fáze výboje v tokamacı́ch.” Bachelor project 2014. url: http://golem.fjfi.
cvut.cz/wiki/Library/GOLEM/BachThesis/14VeverkaJakub.pdf.

[Okoch]

Okonechnikova Tatiana. “Prezentace tokamaku GOLEM pomocı́ technologie X3DOM”. Bachelor project 2016. url:
http://golem.fjfi.cvut.cz/wiki/Library/GOLEM/BachThesis/16OkonechnikovaTatiana.pdf.

[Mách]

Mácha Petr. “Měřenı́ parametrů plazmatu pomocı́ kombinované ball-pen a langmuirovy sondy na tokamaku GOLEM.”
Bachelor project 2018. url: http://golem.fjfi.cvut.cz/wiki/Library/GOLEM/BachThesis/18MachaPetr.pdf.

[Tunch]

Tunkl Marek. “Aplikace segmentovaných polovodičových detektorů pro diagnostiku ubı́hajı́cı́ch elektronů.” Bachelor
project 2019. url: http://golem.fjfi.cvut.cz/wiki/Library/GOLEM/BachThesis/19TunklMarek.pdf.

[Filch]

Filip Papousek. “Impact of swept edge plasma potential biasing on turbulence in tokamaks.” Bachelor project 2020.
url: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/BachelorProjects/20PapousekFilip.pdf.

[Adech]

Adela Kubincova. “Advanced plasma vertical position reconstruction on the GOLEM tokamak.” Bachelor project 2021.
url: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/BachelorProjects/21KubincovaAdela.pdf.

[Jirch]

Jiri Malinak. “Electron temperature measurements using rail probe on the tokamak GOLEM.” Bachelor project 2021.
url: http://golem.fjfi.cvut.cz/wiki/Presentations/Students/BachelorProjects/21MalinakJiri.pdf.

[Jakch]

Jakub Chlum. “Implementation of tomographic inversion on the GOLEM tokamak.” Bachelor project 2022. url:
http://golem.fjfi.cvut.cz/wiki/Presentations/Students/BachelorProjects/22ChlumJakub.pdf.

Miscellaneous
[Tok07]

Tokamak GOLEM contributors. Tokamak GOLEM at the Czech Technical University in Prague. http://golem.fjfi.cvut.cz.
2007.

[HN10]

B. Huang and V. Nikolaeva. Global Tokamak Experiment. http://tokamakglobal.com/. 2010.

[ITE10]

ITER news. Launch of the world’s first global tokamak experiment. http://www.iter.org/newsline/156/512. 2010.

[Jan10]

Jan Mlynář. Golem history. http://golem.fjfi.cvut.cz/wiki/History/Articles/GolemHistoryHM.pdf. [Online;
accessed 2-January-2019]. 2010.

[The20]

The GOLEM Tokamak contributors. Magnetic confinement of high temperature plasma at the GOLEM tokamak.
http://golem.fjfi.cvut.cz/wiki/Education/GMinstructions/extracts/GeneralHandsOn/docum.pdf. [Online;
accessed 2-January-2020]. 2020.

Unofficial articles (without GOLEM cooperation/authors)
[CMS20]

Jayakumar Chandrasekar, Surendar Madhawa, and J. Sangeetha. “Data-driven disruption prediction in GOLEM Tokamak using ensemble classifiers”. In: Journal of Intelligent & Fuzzy Systems 39 (Dec. 2020), pp. 8365–8376. doi:
10.3233/JIFS-189155.

[FSG20]

Hami Faridyousefi, Mohamad Salem, and Mahmood Ghoranneviss. “MHD Mode Identification from Mirnov Coils Signals in Tokamak Via Combination of Singular Value Decomposition and Hilbert–Huang Transform Analysis Methods”.
In: Journal of Fusion Energy 39 (Dec. 2020), pp. 1–9. doi: 10.1007/s10894-020-00273-2.

[CJ22]

Jayakumar Chandrasekaran and Sangeetha Jayaraman. “Magnetohydrodynamic Mode Identification for Golem Mirnov
Coil Signals Using Singular Value Decomposition and Multichannel Variational Mode Decomposition Method for
Analyzing Time-Frequency”. English. In: JOURNAL OF FUSION ENERGY 41.2 (2022). issn: 0164-0313. doi: 10.
1007/s10894-022-00329-5.