The patent badge is an abbreviated version of the USPTO patent document. The patent badge does contain a link to the full patent document.
The patent badge is an abbreviated version of the USPTO patent document. The patent badge covers the following: Patent number, Date patent was issued, Date patent was filed, Title of the patent, Applicant, Inventor, Assignee, Attorney firm, Primary examiner, Assistant examiner, CPCs, and Abstract. The patent badge does contain a link to the full patent document (in Adobe Acrobat format, aka pdf). To download or print any patent click here.
Patent No.:
Date of Patent:
Sep. 20, 2005
Filed:
Oct. 12, 2001
Jyoti Kiron Bhardwaj, Cupertino, CA (US);
Robert James Brainard, Sunnyvale, CA (US);
Zi-wen Dong, Union City, CA (US);
David Dougherty, Sunnyvale, CA (US);
Erik W. Egan, Oakland, CA (US);
Niranjan Gopinathan, Santa Clara, CA (US);
David K. Nakamoto, Sunnyvale, CA (US);
Thomas Thuan Nguyen, San Jose, CA (US);
Sanjay M. Thekdi, Santa Clara, CA (US);
Anantharaman Vaidyanathan, San Jose, CA (US);
Hiroaki Yamada, San Jose, CA (US);
Yingchao Yan, Milpitas, CA (US);
Jyoti Kiron Bhardwaj, Cupertino, CA (US);
Robert James Brainard, Sunnyvale, CA (US);
Zi-Wen Dong, Union City, CA (US);
David Dougherty, Sunnyvale, CA (US);
Erik W. Egan, Oakland, CA (US);
Niranjan Gopinathan, Santa Clara, CA (US);
David K. Nakamoto, Sunnyvale, CA (US);
Thomas Thuan Nguyen, San Jose, CA (US);
Sanjay M. Thekdi, Santa Clara, CA (US);
Anantharaman Vaidyanathan, San Jose, CA (US);
Hiroaki Yamada, San Jose, CA (US);
Yingchao Yan, Milpitas, CA (US);
JDS Uniphase Corporation, San Jose, CA (US);
Abstract
A planar lightwave circuit includes at least one optical waveguide core, and at least one feature proximate the core having a stress-engineered property to balance stress and therefore minimize birefringence affecting the core. A protective passivation layer is formed over the core and the feature to be substantially non-interfering with the balanced stress provided by the feature. The stress balancing feature may be an overcladding layer formed over the core, doped to have a coefficient of thermal expansion approximately matched to that of an underlying substrate, to symmetrically distribute stress in an undercladding between the overcladding and the substrate, away from the core. The protective passivation layer is formed to have a coefficient of thermal expansion approximately matched to that of the overcladding. In one exemplary embodiment, the passivation layer is formed from silicon nitride. Related concepts of stress release grooves, and core overetching, are also disclosed.