golem.bib

@preamble{"\def\acc{[Online; accessed \today]}"}

@CONFERENCE{Istokskaia2018261,
author={Istokskaia, V. and Shkut, M. and Cerovsky, J. and Farnik, M. and Grover, O. and Hudec, L. and Macha, P. and Krbec, J. and Svoboda, V. and Stockel, J. and Adamek, J.},
title={Tokamak GOLEM for fusion education - Chapter 9},
journal={45th EPS Conference on Plasma Physics, EPS 2018},
year={2018},
volume={2018-July},
pages={261-264},
note={cited By 0},
url={https://www.scopus.com/inward/record.uri?eid=2-s2.0-85057830567&partnerID=40&md5=a2c1fb87e3fca2414a7ff6fd7d995ffd},
document_type={Conference Paper},
source={Scopus},
}

@article{SVIHRA2018,
title = "Runaway electrons diagnostics using segmented semiconductor detectors",
journal = "Fusion Engineering and Design",
year = "2018",
issn = "0920-3796",
doi = "https://doi.org/10.1016/j.fusengdes.2018.12.054",
url = "http://www.sciencedirect.com/science/article/pii/S0920379618308196",
author = "Peter Svihra and David Bren and Andrea Casolari and Jaroslav Cerovsky and Pravesh Dhyani and Michal Farnik and Ondrej Ficker and Miroslav Havranek and Martin Hejtmanek and Zdenko Janoska and Vladimir Kafka and Petr Kulhanek and Vladimir Linhart and Eva Macusova and Maria Marcisovska and Michal Marcisovsky and Jan Mlynar and Gordon Neue and Lukas Novotny and Vojtech Svoboda and Lukas Tomasek and Jakub Urban and Pavel Vancura and Jozef Varju and Vaclav Vrba and Vladimir Weinzettl",
keywords = "Semiconductor detectors, Runaway electrons, Tokamaks",
abstract = "A novel application of strip and pixel silicon radiation detectors for study and characterization of run-away electron events in tokamaks is presented. Main goal was to monitor runaway electrons both directly and indirectly. The strip detector was placed inside the tokamak vacuum chamber in order to monitor the run-away electrons directly. Whereas the pixel detector was placed outside the tokamak chamber behind a pin hole for monitoring the run-away electrons indirectly via radiation produce by interaction of the electrons with the plasma facing material. Results obtained using the silicon detectors are compared with already existing diagnostic methods consisting of scintillation devices detecting X-rays and photo-neutrons, providing the same results in the observable comparisons. Tests with the pixel detector proved that the pinhole camera is able to extract spatial information of interaction point (a place where the runaway electrons hit on the facing material) and the strip detectors indicate presence of additional signal from throughout the discharge. The performed experiments are innovative, illustrating possible development of new and easy to use diagnostic method."
}

@misc{KocmanMT,
Author = {{Kocman, J.}},
Title = {Řízení polohy plazmatického prstence na tokamaku GOLEM},
Year = {Master thesis 2015},
howpublished={{http://golem.fjfi.cvut.cz/wiki/Library/GOLEM/MastThesis/15KocmanJindrich.pdf}}
}

@misc{MatenaMT,
Author = {{Matěna, L.}},
Title = {Microwave interferometry on the tokamaku GOLEM},
Year = {Master thesis 2015},
howpublished={{http://golem.fjfi.cvut.cz/wiki/Library/GOLEM/MastThesis/15MatenaLukas.pdf}}
}

@InProceedings{EPSLeuven2016,
  author = 	 {Duban, R., Ficker, O., Grover, O., Jiraková, K., Leitl, B., Okonechniková, T., Stockel, J., Svoboda, V., Vondrasek, G.},
  title = 	 {{Tokamak GOLEM for fusion education - chapter 7 }},
  booktitle =    {Europhysics Conference Abstracts. 43th EPS Conference on Plasma Physics (online: \url{http://ocs.ciemat.es/EPS2016PAP/html/contrib.html})},
  year = 	 {2016},
  howpublished={\url{hhttp://ocs.ciemat.es/EPS2016PAP/pdf/P5.009.pdf}},
  ISBN={2-914771-99-1},
  Volume = {{40A}},
  abstract={},
}

@ARTICLE{Svoboda2016,
author={Svoboda, V. and Dvornova, A and Dejarnac, R  and Prochazka, M and Zaprianov, S and Akhmethanov, R and Bogdanova, M and Dimitrova, M and Dimitrov, Z  and Grover, O  and Hlavata, L  and Ivanov, K  and Kruglov, K  and Marinova, P  and Masherov, P  and Mogulkin, A  and Mlynar, J  and Stockel, J and Volynets, A },
title={Remote operation of the GOLEM tokamak with hydrogen and helium plasmas},
journal={Journal of Physics: Conference Series},
year={2016},
volume={768},
number={1},
doi={10.1088/1742-6596/768/1/012002},
art_number={012002},
note={},
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},
affiliation={Faculty of Nuclear Physics and Physical Engineering, CTU, Prague, Czech Republic; Moscow Engineering Physics Institute (MePhi), Moscow, Russian Federation; Institute of Plasma Physics, AS CR, Za Slovankou 3, Prague, Czech Republic; Faculty of Chemistry, Brno University of Technology, Brno, Czech Republic; St. Kliment Ohridski University of Sofia, Bulgaria; Acad. E. Djakov Institute of Electronics, Bulgarian Academy of Sciences, Sofia, Bulgaria; Research Institute of Applied Mechanics and Electrodynamics, Moscow Aviation Institute (National Research University), Moscow, Russian Federation; Faculty of Physics, M.V.Lomonosov Moscow State University, Moscow, Russian Federation},
abstract={The GOLEM tokamak was operated remotely via Internet connection during the 6th International Workshop and Summer School on Plasma Physics. Performances of hydrogen and helium discharges are compared in this paper. It is found, at similar vacuum conditions, that helium discharges are shorter but the breakdown of the working gas can be quite easily achieved at almost the same loop voltage. The plasma current in helium discharges is slightly lower than in the case of hydrogen. Turbulent fluctuations of the floating potential measured by means of an array of Langmuir probes reveal a noticeably different character in the two discharges. © Published under licence by IOP Publishing Ltd.},
document_type={Conference Paper},
source={Scopus},
}

@article{Grover2016,
title = "Remote operation of the {GOLEM} tokamak for Fusion Education ",
journal = "Fusion Engineering and Design ",
volume = "112",
number = "",
pages = "1038-1044",
year = "2016",
note = "",
issn = "0920-3796",
doi = "http://dx.doi.org/10.1016/j.fusengdes.2016.05.009",
url = "http://www.sciencedirect.com/science/article/pii/S0920379616303441",
author = "O. Grover and J. Kocman and M. Odstrcil and T. Odstrcil and M. Matusu and J. Stockel and V. Svoboda and G. Vondrasek and J. Zara",
keywords = "Tokamak technology",
keywords = "Remote participation",
keywords = "Education",
keywords = "Nuclear fusion ",
abstract = "Abstract Practically oriented education in the field of thermonuclear fusion is highly requested. However, the high complexity of appropriate experiments makes it difficult to develop and maintain laboratories where students can take part in hands-on experiments in this field of study. One possible solution is to establish centres with specific high temperature plasma experiments where students can visit such a laboratory and perform their experiments in-situ. With the advancements of \{IT\} technologies it naturally follows to make a step forward and connect these with necessary plasma physics technologies and thus allow to access even sophisticated experiments remotely. Tokamak {GOLEM} is a small, modest device with its infrastructure linked to web technologies allowing students to set-up necessary discharge parameters, submit them into a queue and within minutes obtain the results in the form of a discharge homepage. "
}



@article{0029-5515-55-10-104019,
  author={M. Gryaznevich and G. Van Oost and J. Stöckel and R. Kamendje and B.N. Kuteev and A. Melnikov and T. Popov and V. Svoboda and The
IAEA CRP Teams},
  title={Contribution to fusion research from IAEA coordinated research projects and joint experiments},
  journal={Nuclear Fusion},
  volume={55},
  number={10},
  pages={104019},
  url={http://stacks.iop.org/0029-5515/55/i=10/a=104019},
  year={2015},
  abstract={The paper presents objectives and activities of IAEA Coordinated Research Projects ‘Conceptual development of steady-state compact fusion neutron sources’ and ‘Utilisation of a network of small magnetic confinement fusion devices for mainstream fusion research’. The background and main projects of the CRP on FNS are described in detail, as this is a new activity at IAEA. Recent activities of the second CRP, which continues activities of previous CRPs, are overviewed.}
}

@article{Markovic2015,
title = "Development of 3D ferromagnetic model of tokamak core with strong toroidal asymmetry ",
journal = "Fusion Engineering and Design ",
volume = "96-97",
number = "",
pages = "302-305",
year = "2015",
note = "",
issn = "0920-3796",
doi = "http://dx.doi.org/10.1016/j.fusengdes.2015.03.041",
url = ";",
author = "T. Markovic and M. Gryaznevich and I. Duran and V. Svoboda and R. Panek",
keywords = "Tokamak",
keywords = "Ferromagnetic core",
keywords = "Integral method",
keywords = "Model of ferromagnet",
keywords = "Tokamak {GOLEM} ",
abstract = "Abstract Fully 3D model of strongly asymmetric tokamak core, based on boundary integral method approach (i.e. characterization of ferromagnet by its surface) is presented. The model is benchmarked on measurements on tokamak GOLEM, as well as compared to 2D axisymmetric core equivalent for this tokamak, presented in previous work. Linearized model well describes quantitative characteristics of \{BR\} field, generated by poloidal field coils located close to core central column, and distorted by ferromagnet. A discrepancy is seen between linearized form of model for \{BR\} field generated by coils under the transformer limbs and the measurements. Future work will thus include implementation of the non-linearity effects in order to further investigate this issue. "
}
@article{Svoboda2015,
title = "Remote operation of the vertical plasma stabilization @ the {GOLEM} tokamak for the plasma physics education ",
journal = "Fusion Engineering and Design ",
volume = "96-97",
number = "",
pages = "974-979",
year = "2015",
note = "",
issn = "0920-3796",
doi = "http://dx.doi.org/10.1016/j.fusengdes.2015.06.044",
url = "http://www.sciencedirect.com/science/article/pii/S0920379615300740",
author = "V. Svoboda and J. Kocman and O. Grover and J. Krbec and J. Stockel",
keywords = "Tokamak technology",
keywords = "Remote participation",
keywords = "Plasma stabilization",
keywords = "Education",
keywords = "Nuclear fusion ",
abstract = "Abstract The {GOLEM} tokamak at the Czech Technical University has been established as an educational tokamak device for domestic and foreign students. Remote participation in the scope of several laboratory practices, plasma physics schools and workshops has been successfully performed from abroad. A new enhancement allowing understandable remote control of vertical plasma position in two modes (i) predefined and (ii) feedback control is presented. It allows to drive the current in the stabilization coils in any time-dependent scenario, which can include as a parameter the actual plasma position measured by magnetic diagnostics. Arbitrary movement of the plasma column in a vertical direction, stabilization of the plasma column in the center of the tokamak vessel as well as prolongation/shortening of plasma life according to the remotely defined request are demonstrated. "
}


@article{Valovic1989,
   author = "M. Valovic",
   title = "Control of Plasma Position in the CASTOR tokamak",
   journal = "Czech J. Phys",
   year = 1989,
   volume = "B 39",
   pages ="1111 - 1119",
}

@MISC{GOLEM4FED15,
  author = {{Tokamak GOLEM}},
  title = {{Tokamak GOLEM @ FED 2015, accompanying page}},
  howpublished = {http://golem.fjfi.cvut.cz/15FED},
  year = {2015},
  online = {2015}
}

@MISC{GOLEM4EXPAT19,
  author = {{Tokamak GOLEM}},
  title = {{Tokamak GOLEM for EXPAT 2019, accompanying page}},
  howpublished = {http://golem.fjfi.cvut.cz/19EXPAT},
  year = {2019},
  online = {2019}
}

@InProceedings{EPSBerlin2014,
  author = 	 {O. Ficker, O. Grover , J. Kocman, J. Krbec, V. Loffelmann, T. Markovic , M. Matusu, J. Stockel, V. Svoboda, J. Veverka, G. Vondrasek},
  title = 	 {{Tokamak GOLEM for fusion education - chapter 5 }},
  booktitle =    {Europhysics Conference Abstracts. 41th EPS Conference on Plasma Physics (online: \url{http://ocs.ciemat.es/EPS2014PAP/pdf/P4.141.pdf})},
  year = 	 {2014},
  howpublished={\url{http://ocs.ciemat.es/EPS2014PAP/pdf/P4.141.pdf}},
  ISBN={2-914771-90-8},
  Volume = {{38F}},
  abstract={Tokamak GOLEM is one of the oldest tokamaks in the world, currently located at the Faculty of Nuclear Sciences and Physical Engineering, CTU in Prague. It serves as an educational device and all experiments and development are done by students themselves under professional supervision. The contribution covers the major improvements made over the last year.
},
}


@article{:/content/aip/journal/rsi/83/10/10.1063/1.4731003,
   author = "Odstrcil, T. and Odstrcil, M. and Grover, O. and Svoboda, V. and Duran, I. and Mlynar, J.",
   title = "Low cost alternative of high speed visible light camera for tokamak experimentsa)",
   journal = "Review of Scientific Instruments",
   year = "2012",
   volume = "83",
   number = "10", 
   eid = "10E505",
   pages = "-",
   url = "http://scitation.aip.org/content/aip/journal/rsi/83/10/10.1063/1.4731003",
   doi = "http://dx.doi.org/10.1063/1.4731003" 
}


@InProceedings{EPSHelsinky2013,
  author = 	 {Hernandez-Arriaga, D. and  Brotankova, J. and Grover, O. and Kocman, J. and Markovic, T. and Odstrcil, M. and Odstrcil, T. and Ruzickova, T. and Stockel, J. and Svoboda, V. and Vondrasek, G.},
  title = 	 {{Tokamak GOLEM for fusion education - chapter 4 }},
  booktitle =    {Europhysics Conference Abstracts. 40th EPS Conference on Plasma Physics (online: \url{http://ocs.ciemat.es/EPS2013PAP/pdf/P2.410.pdf})},
  year = 	 {2013},
  howpublished={\url{http://ocs.ciemat.es/epsicpp2012pap/pdf/P2.059.pdf}},
  ISBN={2-914771-84-3},
  Volume = {{}},
  abstract={},
}

@article{Markovic2013835,
title = "Evaluation of applicability of 2D iron core model for two-limb configuration of {GOLEM} tokamak ",
journal = "Fusion Engineering and Design ",
volume = "88",
number = "6-8",
pages = "835 - 838",
year = "2013",
zmb_note = "Proceedings of the 27th Symposium On Fusion Technology (SOFT-27); Liege, Belgium, September 24-28, 2012 ",
issn = "0920-3796",
doi = "http://dx.doi.org/10.1016/j.fusengdes.2013.02.142",
url = "http://www.sciencedirect.com/science/article/pii/S0920379613002573",
author = "T. Markovic and M. Gryaznevich and I. Duran and V. Svoboda and G. Vondrasek",
keywords = "Tokamak",
keywords = "Ferromagnetic core",
keywords = "Integral method",
keywords = "Tokamak \{GOLEM\} ",
abstract = "This paper presents evaluation of applicability of 2D iron core model for highly non-axisymmetric two limb configuration of \{GOLEM\} tokamak (former CASTOR). Presented results explain the long-term discrepancy between measured magnitudes of external poloidal field and those calculated by air-core approach on this tokamak. The model has been applied to two poloidal planes at different toroidal angles in the vacuum vessel region and has shown that close to central column of the transformer, it is possible to correct for 3D effects by variation of chosen dimensions of axisymmetric iron core model. Satisfactory agreement of the 2D model results with the measured distribution of \{BR\} field component was achieved. "
}




@article{Gryaznevich2013,
title = "Progress in application of high temperature superconductor in tokamak magnets ",
journal = "Fusion Engineering and Design ",
volume = "88",
number = "9-10",
pages = "1593 - 1596",
year = "2013",
issn = "0920-3796",
doi = "http://dx.doi.org/10.1016/j.fusengdes.2013.01.101",
url = "http://www.sciencedirect.com/science/article/pii/S0920379613001117",
author = "M. Gryaznevich and V. Svoboda and J. Stockel and A. Sykes and N. Sykes and D. Kingham and G. Hammond and P. Apte and T.N. Todd and S. Ball and S. Chappell and Z. Melhem and I. Duran and K. Kovarik and O. Grover and T. Markovic and M. Odstrcil and T. Odstrcil and A. Sindlery and G. Vondrasek and J. Kocman and M.K. Lilley and P. de Grouchy and H.-T. Kim",
keywords = "Tokamaks",
keywords = "\{HTS\}",
keywords = "Magnets ",
abstract = "It has long been known that high temperature superconductors (HTS) could have an important role to play in the future of tokamak fusion research. Here we report on first results of the use of HTS in a tokamak magnet and on the progress in design and construction of the first fully-HTS tokamak.",                                                                                                                                         
zmb_note = "Proceedings of the 27th Symposium On Fusion Technology (SOFT-27); Liege, Belgium, September 24-28, 2012 "
}      


@InProceedings{EPSStockholm2012,
  author = 	 {V. Svoboda and  I. Duran and O. Grover and M. Gryaznevich and J. Kocman and K. Kovarik  and T. Markovic  and M Odstrcil and T. Odstrcil and J. Stockel },
  title = 	 {{ Recent results from GOLEM tokamak. 'Indeed, you can teach an old dog some new tricks. }},
  booktitle =    {Europhysics Conference Abstracts. 39th EPS Conference on Plasma Physics (online: \url{http://ocs.ciemat.es/epsicpp2012pap/pdf/P2.059.pdf})},
  year = 	 {2012},
  howpublished={\url{http://ocs.ciemat.es/epsicpp2012pap/pdf/P2.059.pdf}},
  ISBN={},
  Volume = {{36F}},
  abstract={},
}

@InProceedings{EPSStockholm2012HTS,
  author = 	 {Ball, S. and Duran, I. and  Grover, O. and Gryaznevich, M. and Kocman, J. and Kovarik, K. and Markovic, T. and Odstrcil, M. and Odstrcil, T. and Ruzickova, T. and Stockel, J. and Svoboda  V. and Vondrasek, G.},
  title = 	 {{First results from tests of high temperature superconductor magnets on tokamak}},
  booktitle =    {Europhysics Conference Abstracts. 39th EPS Conference on Plasma Physics (online: \url{http://ocs.ciemat.es/epsicpp2012pap/pdf/P2.052.pdf})},
  year = 	 {2012},
  howpublished={\url{http://ocs.ciemat.es/epsicpp2012pap/pdf/P2.052.pdf}},
  ISBN={},
  Volume = {{36F}},
  abstract={},
}

@InProceedings{EPSStockholm2012raw,
  author = 	 {The GOLEM team},
  title = 	 {{ Recent results from GOLEM tokamak. 'Indeed, you can teach an old dog some new tricks. }},
  booktitle =    {39th EPS Conference on Plasma Physics, Stockholm},
  year = 	 {2012},
  ISBN={},
  abstract={},
}

@InProceedings{EPSStrasbourg2011,
  author = 	 {E. Bromova and I. Duran and O. Grover and J. Kocman and T. Markovic and M. Odstrcil and T. Odstrcil and O. Pluhar and J. Stockel and V. Svoboda and A. Sindlery and G. Vondrasek and J. Zara},
  title = 	 {{The GOLEM Tokamak for Fusion Education }},
  booktitle =    {Europhysics Conference Abstracts. 38th EPS Conference on Plasma Physics (online: \url{http://ocs.ciemat.es/EPS2011PAP/pdf/P1.021.pdf})},
  year = 	 {2011},
  howpublished={\url{http://ocs.ciemat.es/EPS2011PAP/pdf/P1.021.pdf}},
  ISBN={2-914771-68-1},
  Volume = {{35G}},
  abstract={The GOLEM tokamak, (formerly CASTOR), became an educational device for domestic as well as for foreign students via remote participation/handling. It operates routinely for nearly two years at modest range of parameters and with a limited set of diagnostics. Wide range of tasks with varying levels of complexity covering tokamak physics, technology and operation can be studied by the future fusion specialists. Currently the diagnostics enrichment is strategic for the education usability of the device. Students participate in large extent on additional standard diagnostics methods development, including density measurement via microwave interferometry, plasma position (including tomography) studies  using a set of Mirnov coils, two fast cameras and two linear arrays of bolometers. Moreover stabilization of the plasma position with an equilibrium magnetic field  generated in the vertical magnetic field coils and plasma spectroscopy issues are under consideration.},
}

@InProceedings{EPSStrasbourg2011raw,
  author = 	 {The GOLEM team},
  title = 	 {{The GOLEM Tokamak for Fusion Education }},
  booktitle =    {38th EPS Conference on Plasma Physics, Strasbourg},
  year = 	 {2011},
  abstract={The GOLEM tokamak, (formerly CASTOR), became an educational device for domestic as well as for foreign students via remote participation/handling. It operates routinely for nearly two years at modest range of parameters and with a limited set of diagnostics. Wide range of tasks with varying levels of complexity covering tokamak physics, technology and operation can be studied by the future fusion specialists. Currently the diagnostics enrichment is strategic for the education usability of the device. Students participate in large extent on additional standard diagnostics methods development, including density measurement via microwave interferometry, plasma position (including tomography) studies  using a set of Mirnov coils, two fast cameras and two linear arrays of bolometers. Moreover stabilization of the plasma position with an equilibrium magnetic field  generated in the vertical magnetic field coils and plasma spectroscopy issues are under consideration.},
}


@InProceedings{EPSDublin2010,
  author = 	 {V. Svoboda and J. Mlyn\'a\v r and G. Pokol and D. R\'efy and J. St\" ockel and G. Vondr\'a\v sek},
  title = 	 {{Former Tokamak CASTOR becomes remotely controllable GOLEM at the Czech Technical University in Prague }},
  booktitle =    {Europhysics Conference Abstracts. 37th EPS Conference on Plasma Physics (online: \url{http://ocs.ciemat.es/EPS2010PAP/pdf/P2.111.pdf})},
  year = 	 {2010},
  howpublished={\url{http://ocs.ciemat.es/EPS2010PAP/pdf/P2.111.pdf}},
  ISBN={2-914771-62-2},
  Volume = {{34A}},
  abstract={},
}

@InProceedings{EPSDublin2010raw,
  author = 	 {The GOLEM team},
  title = 	 {{Former Tokamak CASTOR becomes remotely controllable GOLEM at the CTU in Prague }},
  booktitle =    {37th EPS Conference on Plasma Physics, Dublin},
  year = 	 {2010},
  abstract={},
}


@inproceedings{Svoboda11:186333,
   author = {Svoboda, V. and St{\" o}ckel, J.},
   title = {{Tokamak GOLEM Remotely for Worldwide Fusion Education}},
   booktitle = {{Proceedings: SEFI - PTEE 2011}},
   publisher = {Hochschule Mannheim - University Of Applied Sciences},
   address = {Mannheim},
   year = {2011},
   pages = {--},
   ISBN = {978-3-931569-18-1},
   language = {English},
   URL = {http://sefi11.hs-mannheim.de/index.php?option=com_content\&view=article\&id=27\&Itemid=27}
}

@Misc{wwwgolem,
author={{Tokamak GOLEM team}},
title ={{Tokamak GOLEM at the Czech Technical University in Prague}},
howpublished={http://golem.fjfi.cvut.cz},
year={2007},
note = "[Online; accessed \today]"}


@Misc{wwwiter,
author={{Tokamak }},
title ={{ITER}},
howpublished={https://www.iter.org},
year={2007},
note = "[Online; accessed 21-December-2018]"}

@Misc{wikigolem,
author={Tokamak GOLEM team},
title ={{Tokamak GOLEM at the Czech Technical University in Prague}},
howpublished={http://golem.fjfi.cvut.cz/wiki},
year={2007},
online={2010},}


@Misc{golem4kfprakt,
author={Tokamak GOLEM team},
title ={{Tokamak GOLEM pro KF practicum}},
howpublished={http://golem.fjfi.cvut.cz/wiki/TrainingCourses/KFpract/index.page},
year={2014},
online={2014},}


@article{BrotancePhD,
Author = {{Brotankova, J.}},
Title = {{\href{http://golem.fjfi.cvut.cz/wiki/Library/GOLEM/PhDthesis/JanaBrotankovaPhDthesis.pdf}{Study of high temperature plasma in tokamak-like experimental devices}}},
Year = {{PhD. thesis 2009}},
}



@article{FusenEngDes11,
Author = {Svoboda, V. and Huang, B. and Mlynar, J. and Pokol, G.I. and Stockel, J. and Vondrasek, G},
Title = {{Multi-mode Remote Participation on the GOLEM Tokamak}},
Journal = {{Fusion Engineering and Design}},
Year = {{2011}},
Volume = {{86}},
Number = {{6-8}},
Pages = {{1310-1314}},
Month = {{}},
Abstract = {{The GOLEM tokamak (formerly CASTOR) at Czech Technical University is demonstrated as an educational tokamak device for domestic and foreign students. Remote participation of several foreign universities (in Hungary, Belgium, Poland and Costa Rica) has been successfully performed.  A unique feature of the GOLEM device is functionality which enables complete remote participation and control, solely through Internet access.  Basic remote control is possible either in online mode via WWW/SSH interface or offline mode using batch processing code.  Discharge parameters are set in each case to configure the tokamak for a plasma discharge.  Using the X11 protocol it is possible to control in an advanced mode many technological aspects of the tokamak operation, including: i) vacuum pump initialization, ii) chamber baking, iii) charging of power supplies, iv) plasma discharge scenario, v) data acquisition system.}},
DOI = {{10.1016/j.fusengdes.2011.02.069}},
ISSN = {{0920-3796}},
howpublished={http://dx.doi.org/10.1016/j.fusengdes.2011.02.069},
Unique-ID = {{}},
}

@article{ FusenEngDes11short,
Author = {{Svoboda, V. et al.}},
Title = {{Multi-mode Remote Participation on the GOLEM Tokamak}},
Journal = {{Fusion Engineering and Design}},
Year = {{2011}},
Volume = {{86}},
Number = {{6-8}},
Pages = {{1310-1314}},
Month = {{}},
Abstract = {{The GOLEM tokamak (formerly CASTOR) at Czech Technical University is demonstrated as an educational tokamak device for domestic and foreign students. Remote participation of several foreign universities (in Hungary, Belgium, Poland and Costa Rica) has been successfully performed.  A unique feature of the GOLEM device is functionality which enables complete remote participation and control, solely through Internet access.  Basic remote control is possible either in online mode via WWW/SSH interface or offline mode using batch processing code.  Discharge parameters are set in each case to configure the tokamak for a plasma discharge.  Using the X11 protocol it is possible to control in an advanced mode many technological aspects of the tokamak operation, including: i) vacuum pump initialization, ii) chamber baking, iii) charging of power supplies, iv) plasma discharge scenario, v) data acquisition system.}},
DOI = {{10.1016/j.fusengdes.2011.02.069}},
ISSN = {{0920-3796}},
howpublished={http://dx.doi.org/10.1016/j.fusengdes.2011.02.069},
Unique-ID = {{}},
}

@Misc{iternews,
author={{ITER news}},
title ={{Launch of the world's first global tokamak experiment}},
howpublished={http://www.iter.org/newsline/156/512},
year={2010},
online={2010},}



@MISC{GOLEM2007,
  author = {{FJFI CVUT}},
  title = {{Tokamak GOLEM at the Czech Technical University in Prague}},
  howpublished = {http://golem.fjfi.cvut.cz},
  year = {2007},
  online = {2010}
}

@MISC{GTE2010,
  author = {B. Huang and V. Nikolaeva},
  title = {{Global Tokamak Experiment}},
  howpublished = {http://tokamakglobal.com/},
  year = {2010},
  online = {2010}
}

@MANUAL{horvath12log-book,
 title = "Log-book of GOLEM visit 8 to 12 May 2012",
 author = "L. Horvath",
  year = "2012",
 month = "May"
}

@MISC{config.py,
  author = {{The GOLEM team}},	
  title = {{The GOLEM overal config file}},
  howpublished = {http://golem.fjfi.cvut.cz/shots/0/basicdiagn/config.py},
  year = {\acc},
  online = {\acc}
}