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J E Goldsmith

Showing results (1-10 of 23) with videos related to

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Optics Letters|August 28, 2009
Spatially resolved saturated absorption spectroscopy in flamesJ E Goldsmith
Optics Letters|September 5, 2009
Photochemical effects in 205-nm, two-photon-excited fluorescence detection of atomic hydrogen in flamesJ E Goldsmith
Optics Letters|August 29, 2009
Resonant multiphoton optogalvanic detection of atomic hydrogen in flamesJ E Goldsmith
Applied Optics|May 22, 2010
Photochemical effects in two-photon-excited fluorescence detection of atomic oxygen in flamesJ E Goldsmith
Applied Optics|June 26, 2010
Investigation of simultaneous two-photon H and single photon OH excitation in flames using a single dye laserJ E Goldsmith
Optics Letters|September 3, 2009
Two-step saturated fluorescence detection of atomic hydrogen in flamesJ E Goldsmith
Applied Optics|June 16, 2010
Photochemical effects in 243-nm two-photon excitation of atomic hydrogen in flamesJ E Goldsmith
Optics Letters|September 22, 2009
Doppler-free two-photon-excited fluorescence spectroscopy of atomic hydrogen in flamesJ E Goldsmith, L A Rahn
Optics Letters|September 5, 2009
Laser-induced fluorescence spectroscopy and imaging of molecular oxygen in flamesJ E Goldsmith, R J Anderson
Applied Optics|May 4, 2010
Imaging of atomic hydrogen in flames with two-step saturated fluorescence detectionJ E Goldsmith, R J Anderson
Pageof 3

Showing results (1-10 of 23) with videos related to

Sort By:
Pageof 3
Optics Letters|August 28, 2009
Spatially resolved saturated absorption spectroscopy in flamesJ E Goldsmith
Optics Letters|September 5, 2009
Photochemical effects in 205-nm, two-photon-excited fluorescence detection of atomic hydrogen in flamesJ E Goldsmith
Optics Letters|August 29, 2009
Resonant multiphoton optogalvanic detection of atomic hydrogen in flamesJ E Goldsmith
Applied Optics|May 22, 2010
Photochemical effects in two-photon-excited fluorescence detection of atomic oxygen in flamesJ E Goldsmith
Applied Optics|June 26, 2010
Investigation of simultaneous two-photon H and single photon OH excitation in flames using a single dye laserJ E Goldsmith
Optics Letters|September 3, 2009
Two-step saturated fluorescence detection of atomic hydrogen in flamesJ E Goldsmith
Applied Optics|June 16, 2010
Photochemical effects in 243-nm two-photon excitation of atomic hydrogen in flamesJ E Goldsmith
Optics Letters|September 22, 2009
Doppler-free two-photon-excited fluorescence spectroscopy of atomic hydrogen in flamesJ E Goldsmith, L A Rahn
Optics Letters|September 5, 2009
Laser-induced fluorescence spectroscopy and imaging of molecular oxygen in flamesJ E Goldsmith, R J Anderson
Applied Optics|May 4, 2010
Imaging of atomic hydrogen in flames with two-step saturated fluorescence detectionJ E Goldsmith, R J Anderson
Pageof 3