Engineering & Materials Science
Ion implantation
Ion beams
Ions
Plasmas
Vacuum
Titanium
Metal ions
Aluminum
Surface treatment
Zirconium alloys
Microstructure
Substrates
Current density
Phase composition
Optical emission spectroscopy
Thermooxidation
Ballistics
X ray diffraction
Glow discharges
Laser pulses
Plasma sheaths
Intermetallics
Oxidation resistance
Scanning electron microscopy
Pulse repetition rate
Magnetic fields
Cathodes
Plasma flow
Plasma applications
Doping (additives)
Evaporators
Strontium
Metals
Potassium
Steam
Sorption
Wastewater treatment
Plasma sources
Alloy steel
Nitrogen
Electrodes
Chromium
Titanium alloys
Mechanical properties
Adsorption
Hydrogen
Solid solutions
Lead
Oxidation
Zirconium
Physics & Astronomy
ion beams
ion implantation
submerging
vacuum
implantation
titanium
plasma jets
metal ions
arcs
aluminum
ballistics
ions
energy
pulses
current density
ion currents
grids
evaporators
space charge
retarding
regularity
cathodes
direct current
high current
microstructure
pulse repetition rate
intermetallics
nitrogen ions
magnetic fields
metals
ribbons
pulse duration
copper
magnetohydrodynamic flow
coatings
zirconium alloys
Laves phases
ion extraction
electrodes
nitrogen
titanium alloys
dosage
mechanical properties
chromium
arc discharges
simulation
steels
wear resistance
hot cathodes
Chemical Compounds
Ion implantation
Ions
Plasmas
Ion beams
Titanium
Aluminum
Vacuum
Surface treatment
Zirconium alloys
Metal ions
Substrates
Microstructure
Phase composition
Optical emission spectroscopy
Thermooxidation
X ray diffraction
Glow discharges
Laser pulses
Current density
Plasma sheaths
Steam
Intermetallics
Oxidation resistance
Scanning electron microscopy
Pulse repetition rate
Magnetic fields
Metals
Plasma applications
Doping (additives)
Cathodes
Strontium
Plasma flow
Evaporators
Chromium
Sorption
Wastewater treatment
Plasma sources
Alloy steel
Hydrogen
Titanium alloys
Zirconium
Copper
Nitrogen
Mechanical properties
Adsorption
Solid solutions
Lead
Potassium
Oxidation
Electrodes