Title :
Stability of welding techniques used in single-mode laser packages
Author :
Moyer, It S. ; Lipson, J. ; German, M.G. ; Kaufman, S. ; Hall, P.M. ; Coyle, R.J.
Author_Institution :
AT&T Bell Lab., Reading, PA, USA
Abstract :
Critical alignments of single-mode laser packages have been secured using laser welds and resistance welds. Two methods were used to ascertain submicron motions of the welded joints, which are caused primarily by stress relaxation: linear motion was measured by a Fraunhofer diffraction technique, and angular motion was measured by interferometry. Statistically significant groups of test joints were subjected to thermal stresses. Empirically derived design information is applied to ensure submicron mechanical stability of the device throughout its intended lifetime.<>
Keywords :
angular measurement; distance measurement; laser beam welding; optical communication equipment; semiconductor junction lasers; stress relaxation; Fraunhofer diffraction technique; angular motion; empirically derived design techniques; groups of test joints; interferometry; laser welds; linear motion; resistance welds; single-mode laser packages; stress relaxation; submicron mechanical stability; submicron motions; thermal stresses; welded joints; welding techniques; Diffraction; Electrical resistance measurement; Interferometry; Laser stability; Motion measurement; Packaging; Stress measurement; Testing; Thermal stresses; Welding;
Conference_Titel :
Electronics Components Conference, 1988., Proceedings of the 38th
Conference_Location :
Los Angeles, CA, USA
DOI :
10.1109/ECC.1988.12599
