| Научен проект |
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1
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Stiliyan Lishev, Хоризонт 2020, програма EUROfusion, проект Heating&Current Drive Project "Neutral Beam (NB) R&D, Conceptual Design and Advanced Technologies; 3.2.1. Negative Ion Sources: Concept Development, Testing and Optimization", Член,
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2014
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2
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Stiliyan Lishev, Assessment of the HCD systems for DEMO: NBI-Source development (WP1S-DAS-03-HCD-NB-T02-01/INRE: "Matrix source: Matrix of small-radius discharges as a source of negative ions", no EFDA_D_2MCLBF, v.1.1), Член, Европейска комисия, програма ЕВРАТОМ (EFDA)
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2013
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3
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Stiliyan Lishev, Source Physics, Cs elimination and current density improvement (WP12-DAS-HCD-NBI-03-01/INRNE: "Studies on a single discharge of a rf matrix source" FU07/CT-2012-00077 unit K06 FP7), Член, Европейска комисия, програма ЕВРАТОМ (EFDA)
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2012
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4
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Stiliyan Lishev, Studies on a single discharge of a rf matrix source, Член, , Номер на договора:WP12-DAS-HCO-NBI-03-01
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2012
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5
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Stiliyan Lishev, Високочестотен плазмен источник на отрицателни водородни йони: нетрадиционна концепция, основаваща се на самосъгласуваността на разряда и обезпечаваща ефективност на работа на източника, Член, , Номер на договора:ДО 02-267/18.12.2008
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2008
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6
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Stiliyan Lishev, Development of volume production-based RF source of negative hydrogen ions, Член, , Номер на договора:Task 2.1.1 (P.2)
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2007
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| Статия в научно списание |
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1
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L. Schiesko, S. Lishev, A. Revel, E. Carbone, T. Minea, On the polytropic coefficient of negative ions for modeling the sheath and presheath of electronegative plasmas, Journal of Applied Physics, vol:134, issue:7, 2023, ISSN (online):0021-8979, doi:10.1063/5.0156669, Ref, IF, IF (3.2 - 2022), SCOPUS Quartile: Q2 (2023), International
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2023
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2
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D. Zielke, S. Briefi, S. Lishev, U. Fantz, Modeling inductive radio frequency coupling in powerful negative hydrogen ion sources: Validating a self-consistent fluid model, Plasma Sources Science and Technology, 2022, ISBN:09630252, doi:10.1088/1361-6595/ac5845, Ref, Web of Science, IF (3.8 - 2022), SCOPUS, SJR (0.727 - 2022), SCOPUS Quartile: Q2 (2022), International
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2022
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3
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D. Zielke, D. Rauner, S. Briefi, S. Lishev, U. Fantz, Self-consistent fluid model for simulating power coupling in hydrogen ICPs at 1 MHz including the nonlinear RF Lorentz force, Plasma Sources Science and Technology, vol:30, issue:6, 2021, ISSN (print):0963-0252, ISSN (online):1361-6595, ISBN:09630252, doi:10.1088/1361-6595/ac0396, Ref, Web of Science, International
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2021
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4
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S. Iordanova, Ts. Paunska, A. Pashov, St. Lishev, Experimental and theoretical study on the formation of hybrid discharge structure in a compact rf-driven negative hydrogen ion source, J. Phys. D: Appl. Phys., vol:52, 2019, pages:15202-15216, ISSN (online):1361-6463, doi:10.1088/1361-6463/aae4ab, Ref, Web of Science, IF (2.829 - 2018), Web of Science Quartile: Q1 (2019), SCOPUS, SJR (0.805 - 2018), SCOPUS Quartile: Q1 (2019)
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2019
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5
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S. Lishev, L. Schiesko, D. Wunderlich, C. Wimmerhttps, U. Fantz, Fluid-model analysis on discharge structuring in the RF-driven prototype ion- source for ITER NBI, Plasma Sources Science and Technologies, том:27, брой:12, 2018, doi:10.1088/1361-6595/aaf536, Ref, IR , SCOPUS, SJR (96302 - 2017), SCOPUS Quartile: Q1 (2018), в сътрудничество с чуждестранни учени
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2018
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6
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U. Fantz, C. Hopf, R. Friedl, S. Cristofaro, B. Heinemann, S. Lishev, A. Mimo, Technology developments for a beam source of an NNBI system for DEMO, Fusion engineering and design, vol:136, 2018, pages:340-344, doi:10.1016/j.fusengdes.2018.02.025, Ref, IR , SCOPUS, SJR (920379 - 2017), International
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2018
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7
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Kh. Tarnev, A. Demerdjiev, A. Shivarova, St. Lishev, 3D self-consistent modeling of a matrix source of negative hydrogen ions, Rev. Sci. Instrum., vol:87, issue:02B123, 2016, doi:10.1063/1.4934636, Ref, Web of Science, PhD
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2016
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8
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D. Yordanov, S. Lishev, A. Shivarova, How does a probe inserted into the discharge influence the plasma structure?, Journal of Applied Physics, vol:119, issue:18, 2016, Ref, Web of Science, PhD
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2016
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9
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St. Lishev, A. Shivarova, D. Yordanov, Motivation of concepts for the negative ion extraction from a single
element of the matrix source, Rev. Sci. Instrum., том:78, брой:02B115, 2016, doi:10.1063/1.4932986, Ref, Web of Science, PhD
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2016
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10
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A. Shivarova, D. Todorov, St. Lishev, Self-induced steady-state magnetic field in the negative ion sources with localized rf
power deposition, Rev. Sci. Instrum., vol:87, issue:02B308, 2016, doi:10.1063/1.4932380, Ref, Web of Science, SCOPUS Quartile: Q2 (2016), PhD
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2016
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11
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D. Yordanov, St. Lishev, A. Shivarova, Single element of the matrix source of negative hydrogen ions: Measurements of the extracted currents combined with diagnostics, Rev. Sci. Instrum., том:87, брой:02B116, 2016, doi:10.1063/1.4933013, Ref, Web of Science, PhD
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2016
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12
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A. Shivarova, St. Lishev, D. Todorov, Ts. Paunska, Discharge regime of non-ambipolarity with a self-induced steady-state magnetic field
in plasma sources with localized radio-frequency power deposition, Phys. Plasmas, vol:22, 2015, pages:1007051-1007055, ISSN (online):1070664X, doi:10.1063/1.4933411, Ref, Web of Science, IF (2.207 - 2015), Web of Science Quartile: Q1 (2015), SCOPUS, SJR (0.874 - 2015), SCOPUS Quartile: Q1 (2015), PhD
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2015
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13
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Zh. Kiss’ovski, St. Kolev, St. Lishev, S. Iordanova, I. Koleva, V. Vachkov, Zh. Dimitrov, N. Ezumi, High density small microwave plasma source at atmospheric pressure, XXXVI CBRATIC/I WTMS" (Vitoria, Brazil, 2015) – Book of Extended Abstracts, 2015, International
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2015
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14
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A. Demerdzhiev, Kh. Tarnev, St. Lishev, A. Shivarova, Mode transition in a planar-coil inductively driven discharge caused by an external magnetic field, J. Phys. D: Applied Physics, том:48, 2015, doi:045204, Ref, Web of Science, PhD
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2015
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15
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A. Demerdzhiev, Kh. Tarnev, St. Lishev, D. Yordanov, A. Shivarova, Inductive Discharge Driving by Oblique Field Penetration into the Plasma, IEEE Transactions on Plasma Science, том:42, 2014, Ref, Web of Science, PhD
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2014
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16
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D. Todorov, Kh. Tarnev, Ts. Paunska, St. Lishev, A. Shivarova, Spatial distribution of the plasma parameters in a radio-frequency driven
negative ion source, Rev. Sci. Instrum. , vol:85, 2014, pages:21041-21045, ISSN (online):00346748, doi:10.1063/1.4826540, Ref, Web of Science, IF (1.614 - 2014), Web of Science Quartile: Q1 (2014), SCOPUS, SJR (0.972 - 2014), SCOPUS Quartile: Q1 (2014), PhD
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2014
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17
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Kh. Tarnev, D. Todorov, B. Gilev, St. Lishev, Ts. Paunska, On the spatial distribution of the electromagnetic field in small-radius planar coil inductive
discharges, Plasma Sources Sci. Technol., vol:22, 2013, pages:550151-550159, ISSN (online):10090630, doi:10.1088/0963-0252/22/5/055015, Ref, Web of Science, IF (3.056 - 2013), Web of Science Quartile: Q1 (2013), SCOPUS, SJR (1.007 - 2013), SCOPUS Quartile: Q1 (2013), MSc
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2013
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18
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St. Lishev, A. Shivarova, Kh. Tarnev, S. Iordanova, I. Koleva, Ts. Paunska, D. Iordanov, On the two modes of operation of planar-coil-driven inductive discharges in hydrogen, Journal of Physics D: Applied Physics, vol:46, issue:16, 2013, pages:165204-0, ISSN (online):1361-6463, doi:10.1088/0022-3727/46/16/165204, Ref, Web of Science, IF (2.521 - 2013), Web of Science Quartile: Q1 (2013), SCOPUS, SJR (1.194 - 2013), SCOPUS Quartile: Q1 (2013), PhD
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2013
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19
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St. Lishev, A. Shivarova, Kh. Tarnev, Correlation between the plasma parameters and the extracted current density in the volume-production based sources of negative hydrogen ions, Rev. Sci. Instrum. , 2012, Ref, Web of Science
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2012
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20
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St. Lishev, Ts. Paunska, A. Shivarova, Kh. Tarnev, Matrix of small-radius radio-frequency discharges as a volume-production based source of negative hydrogen ions, Rev. Sci. Instrum. , vol:83, 2012, pages:27021-27025, ISBN:00346748, doi:10.1063/1.3662019, Ref, Web of Science, IF (1.78 - 2012), Web of Science Quartile: Q1 (2012), SCOPUS, SJR (1.017 - 2012), SCOPUS Quartile: Q1 (2012)
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2012
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21
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Stiliyan Lishev, Antonia Shivarova, Khristo Tarnev, Remote Plasma Maintenance in Low-pressure Discharges with an External Magnetic Field, J. Modern Phys., том:3, 2012, стр.:1616-1625, Ref, Web of Science
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2012
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22
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S. Lishev, A. Shivarova, K. Tarnev, Analysis of the factors determining the extraction of negative ion beams from plasma sources, Nuclear Fusion, vol:51, issue:4, 2011, doi:10.1088/0029-5515/51/4/043008, Ref, Web of Science
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2011
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23
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St. Lishev, A. Shivarova, K. Tarnev, On the inertia term in the momentum equation in the free-fall regime of discharge maintenance, Journal of Plasma Physics, vol:77, issue:4, 2011, doi:10.1017/S0022377810000620, Ref, Web of Science
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2011
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24
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St. Lishev, A. Shivarova, Kh. Tarnev, Simple model analysis on the negative-ion extraction from a plasma, Journal of Applied Physics, vol:106, issue:11, 2009, doi:10.1063/1.3259399, Ref, Web of Science
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2009
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25
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S. Lishev, A. Shivarova, K. Tarnev, Eigen surface modes of filamentary plasma structures, IEEE Transactions on Plasma Science, vol:36, issue:4, 2008, doi:10.1109/TPS.2008.917773, Ref, Web of Science
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2008
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26
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St. Lishev, A. Shivarova, Kh. Tarnev, Spatial distribution of the wave field of the surface modes sustaining filamentary discharges, Journal of Applied Physics, vol:103, issue:1, 2008, doi:10.1063/1.2828150, Ref, Web of Science
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2008
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27
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St. Kolev, St. Lishev, A. Shivarova,, Kh. Tranev, R. Wilhelm, Magnetic filter operation in hydrogen plasmas, Plasma Phys. Control. Fusion, vol:49, 2007, pages:1349-1369, doi:10.1088/0741-3335/49/9/001 , Ref, Web of Science, Web of Science Quartile: Q1 (2007), SCOPUS Quartile: Q1 (2007), International, PhD
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2007
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28
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St. Lishev, L.Marinova, H. Schlüter, A. Shivarova, Filamentation regime of travelling-wave-produced plasmas, Vaccum, vol:69, 2002, pages:153-158, Ref, Web of Science, International, MSc
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2002
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| Статия в поредица |
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1
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S. Lishev, D. Iordanov, A. Shivarova, Extraction of negative hydrogen ions from a single discharge of a matrix source, ESCAMPIG XXII, Conference Proceedings, 2014, PhD
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2014
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2
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S. Lishev, Kh. Tarnev, A. Demerdzhiev, A. Shivarova, Influence of the magnetic filter on the discharge mode operation of a single element of a matrix source, ESCAMPIG XXII Conference Proceedings, 2014, PhD
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2014
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3
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Kh. Tarnev, A. Demerdzhiev, St. Lishev, A. Shivarova, Geometrical Skin in Planar-coil Driven Inductive Discharges, 31st ICPIG Conference Proceedings, 2013, PhD
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2013
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4
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St. Lishev, D. Iordanov, Kh. Tarnev, A. Shivarova, Probe Diagnostics in a Single Element of a Matrix-source of Negative Hydrogen Ions, 31st ICPIG Conference Proceedings, 2013, PhD
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2013
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5
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Kh. Tarnev, I. Koleva, St. Lishev, Ts. Paunska, S. Iordanova, A. Shivarova, Mode transition in a small-radius planar-coil inductively-driven discharge, 21th ESCAMPIG (July 10th – 14th 2012, Viana do Castelo, Portugal), 2012, ISBN:2-914771-74-6
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2012
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| Статия в сборник (на конференция и др.) |
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1
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D. Zielke, S. Briefi, S. Lishev, U. Fantz, Predictive fluid model for self-consistent description of inductive RF coupling in powerful negative hydrogen ion sources, Journal of Physics: Conference Series, Publisher:Institute of Physics, 2022, ISBN:17426588, doi:10.1088/1742-6596/2244/1/012030, Ref, IR , SCOPUS, SJR (0.183 - 2022), SCOPUS Quartile: Q4 (2022), International
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2022
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2
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D. Zielke, S. Lishev, S. Briefi, D. Rauner, U. Fantz, Model to self-consistently describe the RF coupling in low pressure high power hydrogen ICPs, 46th EPS Conference on Plasma Physics, EPS 20192019, 2019, Ref, International, PhD
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2019
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3
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S. Iordanova, S. Lishev, A. Pashov, Spectral Diagnostics on the Two Modes of Operation of Inductive Discharges Based on Doppler-Broadened H-alpha Line Shape, AIP Conference Proceedings, vol:2075, editor/s:T. M. Mishonov and A. M. Varonov, Publisher:Melville, New York, 2019, pages:600051-600054, ISSN (print):0094-243X, ISSN (online):1551-7616, ISBN:978-0-7354-1803-5, doi:10.1063/1.5091183, Ref, IR , SCOPUS, SJR (0.182 - 2018)
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2019
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4
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S. Lishev, L. Schiesko, D. Wunderlich, U. Fantz, Influence of the Configuration of the Magnetic Filter Field on the Discharge Structure in the RF Driven Negative Ion Source Prototype for Fusion, FIFTH INTERNATIONAL SYMPOSIUM ON NEGATIVE IONS, BEAMS AND SOURCES (NIBS 2016), vol. 1869 , editor/s:D. Faircloth, Publisher:AIP Conference Proceedings, 2017, doi:10.1063/1.4995762, Ref, Web of Science, International
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2017
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5
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A. Demerdzhiev, St. Lishev, Kh. Tarnev, A. Shivarova, 3D Model of a Matrix Source of Negative Ions: RF Driving by a Large Area Planar Coil, AIP Conference Proceedings, 2015, Ref, Web of Science, PhD
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2015
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6
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S. Lishev, L. Schiesko, D. Wuenderlich, U. Fantz, Spatial Distribution of the Plasma Parameters in the RF Negative Ion Source Prototype for Fusion, FOURTH INTERNATIONAL SYMPOSIUM ON NEGATIVE IONS, BEAMS AND SOURCES (NIBS 2014), vol:1655, 2015, ISSN (print):0094-243X, ISBN:978-0-7354-1297-2, doi:10.1063/1.4916452, Ref, Web of Science, International
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2015
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7
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S. Lishev, D. Yordanov, A. Shivarova, Tests on the Extracted Current Density of Negative Hydrogen Ions from a Single Element of the Matrix Source, AIP Conference Proceedings, 2015, Ref
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2015
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8
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A. Demerdzhiev, Kh. Tarnev, St. Lishev, A. Shivarova, Basis of the discharge maintenance in a matrix source of negative hydrogen ions, Rev. Sci. Instrum.: Proceedings to the 15th international conference on ion sources, Publisher:AIP Rev. Sci. Instrum, 2014, Ref, Web of Science, PhD
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2014
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9
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St. Lishev, D. Yordanov, A. Shivarova, Diagnostics in a single element of a matrix source of negative hydrogen ions, Rev. Sci. Instrum.: Proceedings to the 15th international conference on ion sources, Publisher:AIP Rev. Sci. Instrum, 2014, Ref, Web of Science, SCOPUS Quartile: Q1 (2014), PhD
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2014
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10
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S. Lishev, A. Shivarova, D. Iordanov, D. Todorov, A. Demerdzhiev, Diagnostics of a negative hydrogen ion source based on a planar-coil inductively-driven discharge, AIP Conference Proceedings, 2013, Ref, PhD
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2013
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11
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S. Lishev, A. Shivarova, K. Tarnev, Fluid model analysis of the distribution of the negative ion density before the extraction from a tandem type of a plasma source, AIP Conference Proceedings, 2011, doi:10.1063/1.3637374, Ref
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2011
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12
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St. Lishev, A. Shivarova, Laser-photodetachment and Faraday-cup measurements in the expansion region of a tandem-type plasma source, AIP Conference Proceedings, 2011, doi:10.1063/1.3637389, Ref
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2011
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13
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St. Lishev, A. Shivarova, Kh. Tarnev, 3D model of the magnetic filter region in tandem plasma sources, Journal of Physics: Conference Series, 2010, doi:10.1088/1742-6596/223/1/012003, Ref, Web of Science
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2010
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14
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St. Lishev, A. Shivarova, Ts. Tsankov, Negative ion density measurements in an inductively driven hydrogen discharge, Journal of Physics: Conference Series, 2010, doi:10.1088/1742-6596/223/1/012001, Ref, Web of Science
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2010
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15
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Zh. Kiss'ovski, A. Ivanov, M. Kolev, St. Lishev, St. Kolev, S. Iordanova, I. Koleva, Small microwave plasma source at atmospheric pressure, Plasmas for Environmental Issues at the 37-th European Physical Society Conference on Plasma Physics, editor/s:Elena Tatarova, Vasco Guerra, Evgenia Benova, 2010, pages:51-68, ISBN:978-162276331-3
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2010
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16
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S. Lishev, A. Shivarova, T. Tsankov, Experiments on the detection of negative hydrogen ions in a small-size tandem plasma source, AIP Conference Proceedings, 2009, pages:127-136, doi:10.1063/1.3112505, Ref, Web of Science
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2009
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17
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Z. Kiss'Ovski, M. Kolev, A. Ivanov, S. Lishev, I. Koleva, Small surface wave discharge at atmospheric pressure, Journal of Physics D: Applied Physics, 2009, doi:10.1088/0022-3727/42/18/182004, Ref, Web of Science
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2009
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18
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N. Djermanova, Zh. Kiss'Ovski, St. Lishev, Ts. Tsankov, EEDF measurements in plasma expansion region of a high-frequency driven hydrogen discharge, Journal of Physics: Conference Series, 2007, doi:10.1088/1742-6596/63/1/012013, Ref
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2007
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19
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I. Djermanov, St. Kolev, St. Lishev, A. Shivarova, Ts. Tsankov, Plasma behaviour affected by a magnetic filter, J. Phys. Conf. Series (2007), 63, 2007, pages:12021-0, Ref, Web of Science Quartile: Q4 (2007), SCOPUS Quartile: Q4 (2007), PhD
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2007
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20
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S. Lishev, H. Schluter, A. Shivarova, Kh. Tarnev, Spatial distribution of the wave field of filamented high-frequency discharges, PLASMA PROCESSES AND POLYMERS, vol:3, issue:2, 2006, pages:142-146, ISSN (print):1612-8850, ISSN (online):1612-8869, doi:10.1002/ppap.200500097
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2006
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| Участие в конференция |
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Секционен доклад, Stiliyan Lishev, Spatial Distribution of the Plasma Parameters in the rf Driven Negative Ion Source Prototype for Fusion
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2014
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