Abstract
The performance of the self-aligning interferometer constructed solely from a mirror and reflection grating is experimentally investigated herein. The observations show good agreement with calculations using both the exact optical theory, and agreement at the level expected with the leading order terms in a convenient approximation. 2 refs., 13 figs.
Citation Formats
Wark, S J, and Opat, G I.
A self-aligning interferometer suitable for white or monochromatic light consisting solely of a mirror and a reflection grating. Part II. Experimental results.
Australia: N. p.,
1991.
Web.
Wark, S J, & Opat, G I.
A self-aligning interferometer suitable for white or monochromatic light consisting solely of a mirror and a reflection grating. Part II. Experimental results.
Australia.
Wark, S J, and Opat, G I.
1991.
"A self-aligning interferometer suitable for white or monochromatic light consisting solely of a mirror and a reflection grating. Part II. Experimental results."
Australia.
@misc{etde_10108906,
title = {A self-aligning interferometer suitable for white or monochromatic light consisting solely of a mirror and a reflection grating. Part II. Experimental results}
author = {Wark, S J, and Opat, G I}
abstractNote = {The performance of the self-aligning interferometer constructed solely from a mirror and reflection grating is experimentally investigated herein. The observations show good agreement with calculations using both the exact optical theory, and agreement at the level expected with the leading order terms in a convenient approximation. 2 refs., 13 figs.}
place = {Australia}
year = {1991}
month = {Dec}
}
title = {A self-aligning interferometer suitable for white or monochromatic light consisting solely of a mirror and a reflection grating. Part II. Experimental results}
author = {Wark, S J, and Opat, G I}
abstractNote = {The performance of the self-aligning interferometer constructed solely from a mirror and reflection grating is experimentally investigated herein. The observations show good agreement with calculations using both the exact optical theory, and agreement at the level expected with the leading order terms in a convenient approximation. 2 refs., 13 figs.}
place = {Australia}
year = {1991}
month = {Dec}
}