Hajihoseini, H.; Čada, M.; Hubička, Z.; Ünaldi, S.; Raadu, M.A.; Brenning, N.; Gudmundsson, J.T.; Lundin, D.
The Effect of Magnetic Field Strength and Geometry on the Deposition Rate and Ionized Flux Fraction in the HiPIMS Discharge. Plasma 2019, 2, 201-221.
https://doi.org/10.3390/plasma2020015
AMA Style
Hajihoseini H, Čada M, Hubička Z, Ünaldi S, Raadu MA, Brenning N, Gudmundsson JT, Lundin D.
The Effect of Magnetic Field Strength and Geometry on the Deposition Rate and Ionized Flux Fraction in the HiPIMS Discharge. Plasma. 2019; 2(2):201-221.
https://doi.org/10.3390/plasma2020015
Chicago/Turabian Style
Hajihoseini, Hamidreza, Martin Čada, Zdenek Hubička, Selen Ünaldi, Michael A. Raadu, Nils Brenning, Jon Tomas Gudmundsson, and Daniel Lundin.
2019. "The Effect of Magnetic Field Strength and Geometry on the Deposition Rate and Ionized Flux Fraction in the HiPIMS Discharge" Plasma 2, no. 2: 201-221.
https://doi.org/10.3390/plasma2020015
APA Style
Hajihoseini, H., Čada, M., Hubička, Z., Ünaldi, S., Raadu, M. A., Brenning, N., Gudmundsson, J. T., & Lundin, D.
(2019). The Effect of Magnetic Field Strength and Geometry on the Deposition Rate and Ionized Flux Fraction in the HiPIMS Discharge. Plasma, 2(2), 201-221.
https://doi.org/10.3390/plasma2020015