Publikationen
Autor Titel Typ [ Jahr
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Filterkriterien: Anfangsbuchstabe Des Nachnamens is D [Alle Filter deaktivieren]
In-situ laser light scattering for temporally and locally resolved studies on nanoparticle trapping in a gas aggregation source. Particle & Particle Systems Characterization. 2200112 (2022).
On the plasma permeability of highly porous ceramic framework materials using polymers as marker materials. Plasma Processes and Polymers (2022).
Improved long-term stability and reduced humidity effect in gas sensing: SiO2 ultra-thin layered ZnO columnar films. Advanced Materials Technologies. , 2001137 (2021).
Plasma properties as function of time in Ar/C2H2 dust-forming plasma. Journal of Physics D: Applied Physics. 53, 135203 (2020).
Correlation between sputter deposition parameters and I-V-characteristics in double-barrier memristive devices. Journal of Vacuum Science & Technology B. 37, 061203 (2019).
Effects of process conditions on the chemistry of an Ar/C2H2 dust‐forming plasma. Plasma Processes and Polymers. , e1800209 (2019).
Modeling of argon-acetylene dusty plasma. Plasma Physics and Controlled Fusion. 61, 014014 (2019).
Surface modification of highly porous 3D networks via atmospheric plasma treatment. Contributions to Plasma Physics (2018).
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).
Electron energy distribution function, effective electron temperature, and dust charge in the temporal afterglow of a plasma. Physics of Plasmas. 23, 053704 (2016).
Particle-in-Cell Simulation of a Down-Scaled HEMP Thruster. Trans. JSASS Aerospace Tech. Japan. 14, 235-242 (2016).
Electron energy distribution in a dusty plasma: Analytical approach. Physical Review E. 92 (2015).
On the measurement of energy fluxes in plasmas using a calorimetric probe and a thermopile sensor. Journal of Physics D: Applied Physics. 43, 465201 (2010).
Towards a Microscopic Theory of Particle Charging. Contributions to Plasma Physics. 49, 303-315 (2009).
Interaction of injected dust particles with metastable neon atoms in a radio frequency plasma. New Journal of Physics. 10, 053010 (2008).
Surface States and the Charge of a Dust Particle in a Plasma. Physical Review Letters. 101 (2008).
Die Bestimmung von Energieflüssen bei Plasma-Oberflächen-Prozessen. Galvanotechnik. 96, 2996-3007 (2005).
Ion Molecule and Dust Particle Formation in Ar/CH4, Ar/C2H2 and Ar/C3H6 Radio-frequency Plasmas. Contributions to Plasma Physics. 45, 378-384 (2005).
Charging of micro-particles in plasma–dust interaction. International Journal of Mass Spectrometry. 233, 51-60 (2004).
Plasma–powder interaction: trends in applications and diagnostics. International Journal of Mass Spectrometry. 223-224, 313-325 (2003).
On the determination of energy fluxes at plasma–surface processes. Applied Physics A Materials Science & Processing. 72, 531-540 (2001).
The energy balance at substrate surfaces during plasma processing. Vacuum. 63, 385-431 (2001).
Micro-Disperse Particles in Plasmas: From Disturbing Side Effects to New Applications. Contributions to Plasma Physics. 41, 598-609 (2001).
Energy influx from an rf plasma to a substrate during plasma processing. Journal of Applied Physics. 87, 3637 (2000).
Investigations on the energy influx at plasma processes by means of a simple thermal probe. Thin Solid Films. 377-378, 585-591 (2000).
Investigations on the energy influx at plasma surface processes. Acta Phys. Slovaca. 50, 439-459 (2000).
Microcalorimetry of dust particles in a radio-frequency plasma. Journal of Applied Physics. 88, 1747 (2000).
Micro-disperse particles as probes for plasma surface interaction. Thin Solid Films. 377-378, 530-536 (2000).