Nitric oxide density distributions in the effluent of an RF argon APPJ: Effect of gas flow rate and substrate

New Journal of Physics

Volumn 16, Issue , 2014, Pages

  Iseni, S ^a,b   Zhang, S ^c   Van Gessel, A F H ^c   Hofmann, S ^c   Van Ham, B T J ^c   Reuter, S ^a,b   Weltmann, K D ^b   Bruggeman, P J ^c,d  

^a UNIVERSITY OF GREIFSWALD   (Germany)

^b LEIBNIZ INSTITUTE FOR PLASMA SCIENCE AND TECHNOLOGY   (Germany)

^c EINDHOVEN UNIVERSITY OF TECHNOLOGY   (Netherlands)

^d University of Minnesota   (United States)

Author keywords

atmospheric pressure plasma jets; laser induced fluorescence; molecular beam mass spectrometry; nitric oxide; plasma medicine; spectroscopy

Indexed keywords

AIR; ARGON; ATMOSPHERIC MOVEMENTS; ATMOSPHERIC PRESSURE; ATMOSPHERIC THERMODYNAMICS; DIFFUSION; FLOW OF GASES; FLUORESCENCE; LASER OPTICS; LASER PRODUCED PLASMAS; MASS SPECTROMETRY; MOLECULAR BEAMS; NITRIC OXIDE; PLASMA JETS; SPECTROMETERS; SPECTROSCOPY; TURBULENT FLOW;

ATMOSPHERIC PRESSURE PLASMA JETS; CONDUCTIVE SUBSTRATES; LAMINAR AND TURBULENT FLOW; LASER INDUCED FLUORESCENCE; MOLECULAR BEAM MASS SPECTROMETER; MOLECULAR BEAM MASS SPECTROMETRIES; PLASMA MEDICINES; ROTATIONAL TEMPERATURE;

FIGHTER AIRCRAFT;

EID: 84920265161     PISSN: 13672630     EISSN: None     Source Type: Journal    
DOI: 10.1088/1367-2630/16/12/123011     Document Type: Article

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