<#10#>(File: sample.tex)<#10#>
44
Manuscript excerpts from <#11#>Journal of the Optical Society of America A<#11#>
(JOSA A), <#12#>Journal of the Optical Society of America B<#12#> (JOSA B),
and <#13#>Applied Optics<#13#> are presented in this document, sample.tex.
Each manuscript has been ``TEXed'' with the REVTEX3.0 macros added
to the original manuscript. Each manuscript was also cut
to about 20 of its original length.
Even numbered pages present the manuscript output, as produced by REVTEX3.0. Odd numbered pages show the ASCII input required to produce
the output shown on the previous page, for an OSA manuscript submission.
More complete versions (approximately 40 complete) of these sample
manuscripts are available in the files josaa.tex, josab.tex,
and aplop.tex. Josaa.tex, josab.tex, and aplop.tex have not
been modified to display input on facing pages.
The full articles are available in the OSA
journals. They are:
1. R. J. Sasiela, ``Strehl ratios with various types of
anisoplanatism,'' <#15#>9,<#15#> 1398--1405 (1992).
2. W. Zhao and E. Bourkoff, ``Generation, propagation, and
amplification of dark solitons,'' <#16#>9,<#16#>
1134--1144 (1992).
3. J. P. Pratt and V. P. Heuring, ``Designing digital optical
computing systems: power distribution and cross talk,''
<#17#>31,<#17#> 4657--4661 (1992).
<#19#>The Optical Society of America expresses its appreciation to the
authors listed above for their permission to reuse the material
in this way.<#19#>
<#21#>© Optical Society of America, 1992.<#21#>
<#24#>Strehl ratios with various types
of anisoplanatism<#24#>
<#25#>Richard J. Sasiela<#25#>
<#26#>Lincoln Laboratory, Massachusetts Institute of Technology,
Lexington, Massachusetts 02173-9108<#26#> 46
<#1581#>Abstract<#1581#>:
53
There are many ways in which the paths of two waves through
turbulence can become separated, thereby leading to anisoplanatic
effects. Among these are a parallel path separation, an angular
separation, one caused by a time delay, and one that is due to
differential refraction at two wavelengths. All these effects can
be treated in the same manner. Gegenbauer polynomials are used to
obtain an approximation for the Strehl ratio for these
anisoplanatic effects, yielding a greater range of applicability
than the Maréchal approximation.