partOf
- Configuration for TALIF detection of hydrogen: imaging region of interest ~10x2 mm, spectral filter bandwidth 10 nm centered at ~656 nm
- Configuration for TALIF detection of krypton: imaging region of interest ~10x2 mm, spectral filter bandwidth 10 nm centered at ~825 nm
- Configuration for TALIF detection system: Nikon lens systems to image a region of interest of about 10 and 2 mm; spectral filter with a bandwidth of 10 nm centered at around 656 nm for hydrogen and 825 nm for krypton
- Configuration for diagnostic setup: laser beam focused by a spherical plano-convex fused-silica lens (focal length: 30 cm) in a plane approximately 1 cm behind the plasma jet; fluorescence signal detected perpendicular to the laser beam direction using an iCCD camera, after passing two achromatic lenses (focal length: 80 mm) and an interference filter (central wavelengths λ_O = 845 nm, λ_H = 656 nm, λ_Xe = 835 nm, λ_Kr = 825 nm, band width ∆λ = 10 nm).
- Configuration for laser atomic absorption spectroscopy setup: Laser wavelength: 811.534 nm; Laser linewidth: ~15 fm; Laser power at target: ~50 μW; Focus spot size: ~100 μm; Bandpass filter: 10 nm at 810 nm
- Specification for interference filter: central wavelengths λ_O = 845 nm, λ_H = 656 nm, λ_Xe = 835 nm, λ_Kr = 825 nm, band width ∆λ = 10 nm
- Specification for spectral filter: bandwidth 10 nm
- Specification for spectral filter: bandwidth of 10 nm centered at around 656 nm for hydrogen and 825 nm for krypton