Publikationen

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A
M. Tatanova, G. Thieme, R. Basner, M. Hannemann, YB. Golubovskii, H. Kersten About the EDF formation in a capacitively coupled argon plasma. Plasma Sources Science and Technology. 15, 507-516 (2006).
D. Kotschate, M. Gaal, H. Kersten Acoustic emission by self-organising effects of micro-hollow cathode discharges. Applied Physics Letters. 112, 154102 (2018).
D. Kotschate, M. Gaal, H. Kersten Acoustic emission by self-organising effects of micro-hollow cathode discharges. Applied Physics Letters. 112, 154102 (2018).
C. Bundesmann, C. Eichhorn, F. Scholze, D. Spemann, H. Neumann, D. Pagano, et al. An advanced electric propulsion diagnostic (AEPD) platform for in-situ characterization of electric propulsion thrusters and ion beam sources. The European Physical Journal D. 70 (2016).
C. Bundesmann, C. Eichhorn, F. Scholze, D. Spemann, H. Neumann, D. Pagano, et al. An advanced electric propulsion diagnostic (AEPD) platform for in-situ characterization of electric propulsion thrusters and ion beam sources. The European Physical Journal D. 70 (2016).
C. Bundesmann, C. Eichhorn, F. Scholze, D. Spemann, H. Neumann, D. Pagano, et al. An advanced electric propulsion diagnostic (AEPD) platform for in-situ characterization of electric propulsion thrusters and ion beam sources. The European Physical Journal D. 70 (2016).
R. Wiese, H. Kersten, G. Wiese, M. Häckel Aktive Thermosonde zur Messung des Energieeinstromes: Funktion und Einsatz bei Plasmaprozessen. Vakuum in Forschung und Praxis. 23, 20-23 (2011).
T. Kewitz, M. Fröhlich, H. Kersten Analysis of passive calorimetric probe measurements at high energy influxes. EPJ Techniques and Instrumentation. 4 (2017).
T. Kewitz, M. Fröhlich, H. Kersten Analysis of passive calorimetric probe measurements at high energy influxes. EPJ Techniques and Instrumentation. 4 (2017).
M. Wolter, M. Stahl, H. Kersten Angularly and Spatially Resolved Measurements of the Energy Flux in an RF Plasma Using a Thermal Probe. Plasma Processes and Polymers. 6, S626-S630 (2009).
H. Kersten, R. Foest Atmosphärendruckplasmen – auch für PlasmaNano Science? Galvanotechnik 103(2012)11. 103, 2510-2513 (2012).
D. Mance, R. Wiese, T. Kewitz, H. Kersten Atmospheric pressure plasma jet for biomedical applications characterised by passive thermal probe. The European Physical Journal D. 72 (2018).
D. Mance, R. Wiese, T. Kewitz, H. Kersten Atmospheric pressure plasma jet for biomedical applications characterised by passive thermal probe. The European Physical Journal D. 72 (2018).
M.. Wolter, S. Bornholdt, M. Häckel, H. Kersten Atmospheric pressure plasma jet for treatment of polymers. Journal of Achievements in Materials and Manufacturing Engineering. 37 (2009).
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S. Gauter, F. Haase, P. Solař, O. Kylián, P. Kúš, A. Choukourov, et al. Calorimetric investigations in a gas aggregation source. Journal of Applied Physics. 124, 1-10 (2018).
S. Gauter, F. Haase, P. Solař, O. Kylián, P. Kúš, A. Choukourov, et al. Calorimetric investigations in a gas aggregation source. Journal of Applied Physics. 124, 1-10 (2018).
S. Gauter, F. Haase, P. Solař, O. Kylián, P. Kúš, A. Choukourov, et al. Calorimetric investigations in a gas aggregation source. Journal of Applied Physics. 124, 1-10 (2018).
M. Stahl, T. Trottenberg, H. Kersten A calorimetric probe for plasma diagnostics. Review of Scientific Instruments. 81, 023504 (2010).
S. Gauter, M. Fröhlich, W. Garkas, M. Polak, H. Kersten Calorimetric probe measurements for a high voltage pulsed substrate (PBII) in a HiPIMS process. Plasma Sources Science and Technology. 26, 065013 (2017).
S. Bornholdt, M. Fröhlich, H. Kersten. Calorimetric Probes for Energy Flux Measurements in Process Plasmas. In: Complex Plasmas: Scientific Challenges and Technological Opportunities. Springer International Publishing; 2014. p. 197-234p.
D. Mance, H. Geilmann, WA. Brand, T. Kewitz, H. Kersten Changes of 2H and 18O abundances in water treated with non-thermal atmospheric pressure plasma jet. Plasma Processes and Polymers. , 1600239 (2017).
D. Mance, H. Geilmann, WA. Brand, T. Kewitz, H. Kersten Changes of 2H and 18O abundances in water treated with non-thermal atmospheric pressure plasma jet. Plasma Processes and Polymers. , 1600239 (2017).
H. Kersten, R. Wiese, D. Gorbov, A. Kapitov, F. Scholze, H. Neumann Characterization of a broad ion beam source by determination of the energy flux. Surface and Coatings Technology. 174-175, 918-921 (2003).
H. Kersten, R. Wiese, D. Gorbov, A. Kapitov, F. Scholze, H. Neumann Characterization of a broad ion beam source by determination of the energy flux. Surface and Coatings Technology. 174-175, 918-921 (2003).
AM. Ahadi, T. Trottenberg, S. Rehders, T. Strunskus, H. Kersten, F. Faupel Characterization of a radio frequency hollow electrode discharge at low gas pressures. Physics of Plasmas. 22, 083513 (2015).
S. Bornholdt, M. Wolter, H. Kersten Characterization of an atmospheric pressure plasma jet for surface modification and thin film deposition. The European Physical Journal D. 60, 653-660 (2010).
S. Bornholdt, N. Itagaki, K. Kuwahara, H. Wulff, M. Shiratani, H. Kersten Characterization of the energy flux toward the substrate during magnetron sputter deposition of ZnO thin films. Plasma Sources Science and Technology. 22, 025019 (2013).
S. Bornholdt, N. Itagaki, K. Kuwahara, H. Wulff, M. Shiratani, H. Kersten Characterization of the energy flux toward the substrate during magnetron sputter deposition of ZnO thin films. Plasma Sources Science and Technology. 22, 025019 (2013).
H. Kersten, H.. Deutsch, G. Kroesen Charging of micro-particles in plasma–dust interaction. International Journal of Mass Spectrometry. 233, 51-60 (2004).
H. Kersten, H.. Deutsch, G. Kroesen Charging of micro-particles in plasma–dust interaction. International Journal of Mass Spectrometry. 233, 51-60 (2004).
I. Herrmann, UI. Kramm, S. Fiechter, V. Brüser, H. Kersten, P. Bogdanoff Comparative Study of the Carbonisation of CoTMPP by Low Temperature Plasma and Heat Treatment. Plasma Processes and Polymers. 7, 515-526 (2010).
I. Herrmann, UI. Kramm, S. Fiechter, V. Brüser, H. Kersten, P. Bogdanoff Comparative Study of the Carbonisation of CoTMPP by Low Temperature Plasma and Heat Treatment. Plasma Processes and Polymers. 7, 515-526 (2010).
C. Roth, S. Bornholdt, V. Zuber, A. Sonnenfeld, H. Kersten, R. P von Rohr Comparison of calorimetric plasma diagnostics in a plasma downstream reactor. Journal of Physics D: Applied Physics. 44, 095201 (2011).
H. Kersten, G. Thieme, M. Fröhlich, D. Bojic, D.. Tung, M.. Quaas, et al. Complex (dusty) plasmas: Examples for applications and observation of magnetron-induced phenomena. Pure and Applied Chemistry. 77 (2005).
A. Piel, O. Arp, D. Block, I. Pilch, T. Trottenberg, S. Käding, et al. Complex plasmas: forces and dynamical behaviour. Plasma Physics and Controlled Fusion. 50 (2008).
AM. Ahadi, KI. Hunter, NJ. Kramer, T. Strunskus, H. Kersten, F. Faupel, et al. Controlled synthesis of germanium nanoparticles by nonthermal plasmas. Applied Physics Letters. 108, 093105 (2016).
AM. Ahadi, KI. Hunter, NJ. Kramer, T. Strunskus, H. Kersten, F. Faupel, et al. Controlled synthesis of germanium nanoparticles by nonthermal plasmas. Applied Physics Letters. 108, 093105 (2016).
AM. Ahadi, KI. Hunter, NJ. Kramer, T. Strunskus, H. Kersten, F. Faupel, et al. Controlled synthesis of germanium nanoparticles by nonthermal plasmas. Applied Physics Letters. 108, 093105 (2016).
L. Hansen, N. Kohlmann, U. Schürmann, L. Kienle, H. Kersten Conventional and non-conventional diagnostics of a stable atmospheric pressure DC normal glow microplasma discharge intended for in situ TEM studies. Plasma Sources Science and Technology. 31, 035013 (2022).
L. Hansen, N. Kohlmann, U. Schürmann, L. Kienle, H. Kersten Conventional and non-conventional diagnostics of a stable atmospheric pressure DC normal glow microplasma discharge intended for in situ TEM studies. Plasma Sources Science and Technology. 31, 035013 (2022).
L. Hansen, N. Kohlmann, U. Schürmann, L. Kienle, H. Kersten Conventional and non-conventional diagnostics of a stable atmospheric pressure DC normal glow microplasma discharge intended for in situ TEM studies. Plasma Sources Science and Technology. 31, 035013 (2022).
S. Kumar, I. Levchenko, D. Farrant, M. Keidar, H. Kersten, K(. Ostrikov Copper-Capped Carbon Nanocones on Silicon: Plasma-Enabled Growth Control. ACS Applied Materials & Interfaces. 4, 6021-6029 (2012).
S. Kumar, I. Levchenko, D. Farrant, M. Keidar, H. Kersten, K(. Ostrikov Copper-Capped Carbon Nanocones on Silicon: Plasma-Enabled Growth Control. ACS Applied Materials & Interfaces. 4, 6021-6029 (2012).
S. Kumar, I. Levchenko, D. Farrant, M. Keidar, H. Kersten, K(. Ostrikov Copper-Capped Carbon Nanocones on Silicon: Plasma-Enabled Growth Control. ACS Applied Materials & Interfaces. 4, 6021-6029 (2012).
R. Marquardt, J. Cipo, F. Schlichting, G. Kolhatkar, H. Kohlstedt, H. Kersten Correlation between properties of direct current magnetron sputtered thin niobium nitride films and plasma parameters. Thin Solid Films. 742, 139046 (2021).
R. Marquardt, J. Cipo, F. Schlichting, G. Kolhatkar, H. Kohlstedt, H. Kersten Correlation between properties of direct current magnetron sputtered thin niobium nitride films and plasma parameters. Thin Solid Films. 742, 139046 (2021).
R. Marquardt, J. Cipo, F. Schlichting, G. Kolhatkar, H. Kohlstedt, H. Kersten Correlation between properties of direct current magnetron sputtered thin niobium nitride films and plasma parameters. Thin Solid Films. 742, 139046 (2021).
F. Zahari, F. Schlichting, J. Strobel, S. Dirkmann, J. Cipo, S. Gauter, et al. Correlation between sputter deposition parameters and I-V-characteristics in double-barrier memristive devices. Journal of Vacuum Science & Technology B. 37, 061203 (2019).
F. Zahari, F. Schlichting, J. Strobel, S. Dirkmann, J. Cipo, S. Gauter, et al. Correlation between sputter deposition parameters and I-V-characteristics in double-barrier memristive devices. Journal of Vacuum Science & Technology B. 37, 061203 (2019).
F. Zahari, F. Schlichting, J. Strobel, S. Dirkmann, J. Cipo, S. Gauter, et al. Correlation between sputter deposition parameters and I-V-characteristics in double-barrier memristive devices. Journal of Vacuum Science & Technology B. 37, 061203 (2019).
F. Zahari, F. Schlichting, J. Strobel, S. Dirkmann, J. Cipo, S. Gauter, et al. Correlation between sputter deposition parameters and I-V-characteristics in double-barrier memristive devices. Journal of Vacuum Science & Technology B. 37, 061203 (2019).
L. Hansen, N. Kohlmann, L. Kienle, H. Kersten Correlations between energy flux and thin film modifications in an atmospheric pressure direct current microplasma. Thin Solid Films. 765, 139633 (2022).
L. Hansen, N. Kohlmann, L. Kienle, H. Kersten Correlations between energy flux and thin film modifications in an atmospheric pressure direct current microplasma. Thin Solid Films. 765, 139633 (2022).
L. Hansen, N. Kohlmann, L. Kienle, H. Kersten Correlations between energy flux and thin film modifications in an atmospheric pressure direct current microplasma. Thin Solid Films. 765, 139633 (2022).
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T. Krüger, L. Hansen, H. Kersten Deposition of SiOx thin films using hexamethyldisiloxane in atmospheric pressure plasma enhanced chemical vapour deposition. Journal of Physics: Conference Series. 1492, 012023 (2020).
T. Krüger, L. Hansen, H. Kersten Deposition of SiOx thin films using hexamethyldisiloxane in atmospheric pressure plasma enhanced chemical vapour deposition. Journal of Physics: Conference Series. 1492, 012023 (2020).
O. Galmiz, M. Stupavska, H. Wulff, H. Kersten, A. Brablec, M. Cernak Deposition of Zn-containing films using atmospheric pressure plasma jet. Open Chemistry. 13 (2014).
M. Quitzau, H. Kersten Determination of electron density and energy influx in a hollow cathode glow discharge used for powder modification. The European Physical Journal D. 66 (2012).
H. Kersten, D. Rohde, H. Steffen, H.. Deutsch, R. Hippler, G.. Swinkels, et al. On the determination of energy fluxes at plasma–surface processes. Applied Physics A Materials Science & Processing. 72, 531-540 (2001).
H. Kersten, D. Rohde, H. Steffen, H.. Deutsch, R. Hippler, G.. Swinkels, et al. On the determination of energy fluxes at plasma–surface processes. Applied Physics A Materials Science & Processing. 72, 531-540 (2001).
R. Wiese, H. Kersten, M. Hannemann, V. Sittinger, F. Ruske, R. Menner Determination of Plasma Parameters during Deposition of ZnO Films by Ceramic and Metallic Targets and Correlation with Film Properties. Plasma Processes and Polymers. 4, S527-S530 (2007).
G. Schubert, R. Basner, H. Kersten, H. Fehske Determination of sheath parameters by test particles upon local electrode bias and plasma switching. The European Physical Journal D. 63, 431-440 (2011).
M. Fröhlich, S. Bornholdt, C. Regula, J. Ihde, H. Kersten Determination of the Energy Flux of a Commercial Atmospheric-Pressure Plasma Jet for Different Process Gases and Distances Between Nozzle Outlet and Substrate Surface. Contributions to Plasma Physics. 54, 155-161 (2014).
J. Cipo, F. Schlichting, F. Zahari, S. Gauter, H. Kohlstedt, H. Kersten Diagnostics of process plasma used for the production of memristive devices. Journal of Physics: Conference Series. 1492, 012002 (2020).
J. Cipo, F. Schlichting, F. Zahari, S. Gauter, H. Kohlstedt, H. Kersten Diagnostics of process plasma used for the production of memristive devices. Journal of Physics: Conference Series. 1492, 012002 (2020).
M. Hähnel, V. Brüser, H. Kersten Diagnostics of SiOx-Containing Layers Deposited on Powder Particles by Dielectric Barrier Discharge. Plasma Processes and Polymers. 4, 629-637 (2007).
H. Kersten, H.. Deutsch, D. Rohde, H. Steffen, R. Hippler Die Bestimmung von Energieflüssen bei Plasma-Oberflächen-Prozessen. Galvanotechnik. 96, 2996-3007 (2005).
J. Cipo, H. Kersten Die Geschichte der Gasentladungsphysik – Beobachtungen, Experimente und Ergebnisse aus drei Jahrhunderten. Vakuum in Forschung und Praxis. 3021335, 34-42 (2018).
S. Gauter, M. Fröhlich, H. Kersten Direct calorimetric measurements in a PBII and deposition (PBII&D) experiment with a HiPIMS plasma source. Surface and Coatings Technology. 352, 7 (2018).
M. Klette, M. Maas, T. Trottenberg, H. Kersten Directionally resolved measurements of momentum transport in sputter plumes as a critical test for simulations. Journal of Vacuum Science & Technology A. 38, 033013 (2020).
M. Klette, M. Maas, T. Trottenberg, H. Kersten Directionally resolved measurements of momentum transport in sputter plumes as a critical test for simulations. Journal of Vacuum Science & Technology A. 38, 033013 (2020).
K. Nishiyama, Y. Morita, G. Uchida, D. Yamashita, K. Kamataki, H. Seo, et al. Discharge power dependence of carbon dust flux in a divertor simulator. Journal of Nuclear Materials. 438, S788-S791 (2013).
K. Nishiyama, Y. Morita, G. Uchida, D. Yamashita, K. Kamataki, H. Seo, et al. Discharge power dependence of carbon dust flux in a divertor simulator. Journal of Nuclear Materials. 438, S788-S791 (2013).
K. Nishiyama, Y. Morita, G. Uchida, D. Yamashita, K. Kamataki, H. Seo, et al. Discharge power dependence of carbon dust flux in a divertor simulator. Journal of Nuclear Materials. 438, S788-S791 (2013).
M. Wolter, I. Levchenko, H. Kersten, S. Kumar, K(. Ostrikov Disentangling fluxes of energy and matter in plasma-surface interactions: Effect of process parameters. Journal of Applied Physics. 108, 053302 (2010).
M. Wolter, I. Levchenko, H. Kersten, S. Kumar, K(. Ostrikov Disentangling fluxes of energy and matter in plasma-surface interactions: Effect of process parameters. Journal of Applied Physics. 108, 053302 (2010).
J. Blažek, P. Bartoš, R. Basner, H. Kersten, P. Špatenka Dust particles in collisionless plasma sheath with arbitrary electron energy distribution function. The European Physical Journal D. 54, 219-224 (2009).
F. Haase, D. Manova, D. Hirsch, S. Mändl, H. Kersten Dynamic determination of secondary electron emission using a calorimetric probe in a plasma immersion ion implantation experiment. Plasma Sources Science and Technology. 27, 044003 (2018).
I. Pilch, A. Piel, T. Trottenberg, ME. Koepke Dynamics of small dust clouds trapped in a magnetized anodic plasma. Physics of Plasmas. 14 (2007).
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L. Hallmann, P. Ulmer, F. Lehmann, S. Wille, O. Polonskyi, M. Johannes, et al. Effect of surface modifications on the bond strength of zirconia ceramic with resin cement resin. Dental Materials. 32, 631-639 (2016).
L. Hallmann, P. Ulmer, F. Lehmann, S. Wille, O. Polonskyi, M. Johannes, et al. Effect of surface modifications on the bond strength of zirconia ceramic with resin cement resin. Dental Materials. 32, 631-639 (2016).
L. Hallmann, P. Ulmer, F. Lehmann, S. Wille, O. Polonskyi, M. Johannes, et al. Effect of surface modifications on the bond strength of zirconia ceramic with resin cement resin. Dental Materials. 32, 631-639 (2016).
L. Hallmann, P. Ulmer, S. Wille, O. Polonskyi, S. Köbel, T. Trottenberg, et al. Effect of surface treatments on the properties and morphological change of dental zirconia. The Journal of Prosthetic Dentistry. 115, 341-349 (2016).
L. Hallmann, P. Ulmer, S. Wille, O. Polonskyi, S. Köbel, T. Trottenberg, et al. Effect of surface treatments on the properties and morphological change of dental zirconia. The Journal of Prosthetic Dentistry. 115, 341-349 (2016).
L. Hallmann, P. Ulmer, S. Wille, O. Polonskyi, S. Köbel, T. Trottenberg, et al. Effect of surface treatments on the properties and morphological change of dental zirconia. The Journal of Prosthetic Dentistry. 115, 341-349 (2016).
I. Suhariadi, K. Matsushima, K. Kuwahara, K. Oshikawa, D. Yamashita, H. Seo, et al. Effects of Hydrogen Dilution on ZnO Thin Films Fabricated via Nitrogen-Mediated Crystallization. Japanese Journal of Applied Physics. 52, 01AC08 (2013).
I. Suhariadi, K. Matsushima, K. Kuwahara, K. Oshikawa, D. Yamashita, H. Seo, et al. Effects of Hydrogen Dilution on ZnO Thin Films Fabricated via Nitrogen-Mediated Crystallization. Japanese Journal of Applied Physics. 52, 01AC08 (2013).
I. Suhariadi, K. Matsushima, K. Kuwahara, K. Oshikawa, D. Yamashita, H. Seo, et al. Effects of Hydrogen Dilution on ZnO Thin Films Fabricated via Nitrogen-Mediated Crystallization. Japanese Journal of Applied Physics. 52, 01AC08 (2013).
I. Suhariadi, K. Matsushima, K. Kuwahara, K. Oshikawa, D. Yamashita, H. Seo, et al. Effects of Hydrogen Dilution on ZnO Thin Films Fabricated via Nitrogen-Mediated Crystallization. Japanese Journal of Applied Physics. 52, 01AC08 (2013).
I. Denysenko, E. von Wahl, S. Labidi, M. Mikikian, H. Kersten, T. Gibert Effects of process conditions on the chemistry of an Ar/C2H2 dust‐forming plasma. Plasma Processes and Polymers. , e1800209 (2019).
R. Wiese, H. Kersten Einsatz einer aktiven Thermosonde zur Diagnostik von Prozessplasmen. Galvanotechnik. 99, 1502-1507 (2008).
L. Hansen, T. Krüger, T. Kewitz, M. Steiner, H. Kersten Einsatz von Atmosphärendruckplasmen für Anwendungen in der Druckindustrie. Galvanotechnik. 108, 1658-1665 (2017).
L. Hansen, T. Krüger, T. Kewitz, M. Steiner, H. Kersten Einsatz von Atmosphärendruckplasmen für Anwendungen in der Druckindustrie. Galvanotechnik. 108, 1658-1665 (2017).
L. Hansen, T. Krüger, T. Kewitz, M. Steiner, H. Kersten Einsatz von Atmosphärendruckplasmen für Anwendungen in der Druckindustrie. Galvanotechnik. 108, 1658-1665 (2017).
I. Herrmann, V. Brüser, S. Fiechter, H. Kersten, P. Bogdanoff Electrocatalysts for Oxygen Reduction Prepared by Plasma Treatment of Carbon-Supported Cobalt Tetramethoxyphenylporphyrin. Journal of The Electrochemical Society. 152, A2179 (2005).
I.. Denysenko, H. Kersten, N.. Azarenkov Electron energy distribution function, effective electron temperature, and dust charge in the temporal afterglow of a plasma. Physics of Plasmas. 23, 053704 (2016).
I.. Denysenko, H. Kersten, N.. Azarenkov Electron energy distribution in a dusty plasma: Analytical approach. Physical Review E. 92 (2015).