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4 research outputs found

Hydroxyl Radical Imaging at kHz Rates Using a Frequency-Quadrupled Nd:YLF Laser

Author: A. Arnold
B. Böhm
C. Kittler
E.W. Rothe
G.H. Dieke
G.P.A. Malcolm
J. Warnatz
J.D. Miller
J.D. Smith
J.M. Seitzmann
K. Smyth
M. E. Cundy
U.E. Meier
V. Sick
V. Sick
W. Demtröder
W. Ketterle
Publication venue: 'Springer Science and Business Media LLC'
Publication date: 11/06/2009
Field of study

Laser-induced fluorescence imaging of hydroxyl radicals has been an important tool in combustion research for more than twenty years. More recently, high frame rate imaging of hydroxyl radicals has been demonstrated using Nd:YAG-pumped dye laser systems. This work describes how a high repetition rate frequency-quadrupled Nd:YLF laser emitting at 263 nm can be used for laser-induced fluorescence imaging of hydroxyl radicals with less complexity. Hydroxyl radicals are excited in the Aâ€“X (2,0) band and redshifted fluorescence emission is detected with an image intensified CMOS camera at kHz frame rates. Furthermore, a strategy for high-speed temperature imaging is described.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/86782/1/Sick11.pd

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Deep Blue Documents at the University of Michigan

Laser Selection Criteria for OH Fluorescence Measurements in Supersonic Combustion Test Facilities

Author: Abbit J.D. III
Barlow R. S.
Cattolica R. J.
Davis J. A.
G. Laufer
Herzberg G.
J. C. McDaniel
Krauss R. H.
Marcuse D.
R. H. Krauss
Rogers R. C.
Seitzmann J.
T. M. Quagliaroli
Vincenti W. G.
Publication venue: 'American Institute of Aeronautics and Astronautics (AIAA)'
Publication date
Field of study

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Numerical Modeling Capabilities for the Simulation of Toxic By-Products Formation in Combustion Processes

Author: ANDREW E. LUTZ
Broadwell J. E.
Broadwell J. E.
Broadwell J. E.
CHARLES K. WESTBROOK
Glarborg P.
JAMES G. SEEBOLD
Kee R. J.
Kee R. J.
Law C. K.
Lutz A. E.
Lutz A. E.
Pitz W. J.
Pope S. B.
Ritter E. R.
ROBERT J. KEE
Seitzmann J. M.
SELIM SENKAN
WILLIAM J. PITZ
Publication venue: 'Informa UK Limited'
Publication date
Field of study

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The application of a raman-shifted tunable KrF excimer laser for laser-induced fluorescence combustion diagnostics

Author: A. Dreizler
A.M. Wodtke
A.M. Wodtke
A.M. Wodtke
B. Rückle
D.C. Robie
D.R. Crosley
E. Hecht
G. Meijer
G.-S. Kim
H. Komine
H.F. Döbele
J. Wolfrum
J.A. Coxon
J.M. Seitzmann
K. Müller-Dethlefs
L.M. Hitchcock
M. Aldén
M.B. Long
M.H.R. Hutchinson
M.P. Lee
P. Andresen
P. Andresen
R. Suntz
R.J. Cattolica
S.F. Fulghum
T. Dreier
T.R. Loree
W. Ketterle
W. Lempert
Publication venue: 'Springer Science and Business Media LLC'
Publication date
Field of study

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