Abstract
Attempts to extend present tunable radiation sources into the wavelength region from 140 to 330 nm are presented in the following areas: frequency doubling and parametric upconversion methods, frequency mixing techniques in metal vapors, the pulsed N/sub 2/ laser, tunable dye lasers for the near uv to ir spectral range, heat pipe ovens, and preliminary experiments. (MHR)
Citation Formats
Haydon, S C.
Tunable dye laser research at U. N. E.
Australia: N. p.,
1976.
Web.
Haydon, S C.
Tunable dye laser research at U. N. E.
Australia.
Haydon, S C.
1976.
"Tunable dye laser research at U. N. E."
Australia.
@misc{etde_7224524,
title = {Tunable dye laser research at U. N. E}
author = {Haydon, S C}
abstractNote = {Attempts to extend present tunable radiation sources into the wavelength region from 140 to 330 nm are presented in the following areas: frequency doubling and parametric upconversion methods, frequency mixing techniques in metal vapors, the pulsed N/sub 2/ laser, tunable dye lasers for the near uv to ir spectral range, heat pipe ovens, and preliminary experiments. (MHR)}
journal = []
volume = {19:4}
journal type = {AC}
place = {Australia}
year = {1976}
month = {Oct}
}
title = {Tunable dye laser research at U. N. E}
author = {Haydon, S C}
abstractNote = {Attempts to extend present tunable radiation sources into the wavelength region from 140 to 330 nm are presented in the following areas: frequency doubling and parametric upconversion methods, frequency mixing techniques in metal vapors, the pulsed N/sub 2/ laser, tunable dye lasers for the near uv to ir spectral range, heat pipe ovens, and preliminary experiments. (MHR)}
journal = []
volume = {19:4}
journal type = {AC}
place = {Australia}
year = {1976}
month = {Oct}
}