Abstract
We present the design, fabrication, and testing of optomechanics for a free-space optical backplane mounted in a standard 6U VME backplane chassis. The optomechanics implement an optical interconnect consisting of lenslet-to-lenslet, as well as conventional lens-to-lens, links. Mechanical, optical, electrical, thermal, material, and fabrication constraints are studied. Design trade-offs that affect system scalability and ease of assembly are put forward and analyzed. Novel mounting techniques such as a thermal-loaded interference-fitted lens-mounting technique are presented and discussed. Diagnostic tools are developed to quantify the performance of the optomechanics, and experimental results are given and analyzed.
© 1997 Optical Society of America
Full Article | PDF ArticleMore Like This
R. Iyer, Y. S. Liu, G. C. Boisset, D. J. Goodwill, M. H. Ayliffe, B. Robertson, W. M. Robertson, D. Kabal, F. Lacroix, and D. V. Plant
Appl. Opt. 36(35) 9230-9242 (1997)
Yongsheng Liu, Brian Robertson, Guillaume C. Boisset, Michael H. Ayliffe, Rajiv Iyer, and David V. Plant
Appl. Opt. 37(14) 2895-2914 (1998)
Frederic Lacroix, Eric Bernier, Michael H. Ayliffe, Frank A. P. Tooley, David V. Plant, and Andrew G. Kirk
Appl. Opt. 41(8) 1541-1555 (2002)