Seattle photonics

Seattle Photonics has the capability to perform optical metrology and testing of optical systems in our lab. SPA has been involved with several systems that utilize single-mode and multi-mode fibers in laser delivery systems and telecom solutions. Our senior engineers have over 30 . Our group takes pride in taking optical product challenges through initial concept phases, full system design and analysis, and finally prototyping and testing to meet . We have patented several design forms that improve exit-pupil uniformity for .

Defining how fabrication and machining tolerances affect the performance of an optical system are crucial metrics in most optical engineering efforts.

A great deal of current optical engineering development is centered on illumination applications.

Our in house mechanical engineering staff is intimately familiar with the requirements and specifics of designing and working with optical systems, and as such, . SPA has designed tooling to help in the assembly process of several systems, and some examples of tooling design are listed below: SPA designed and . Understanding how lasers propagate, how beam profiles interact with apertures and optical surfaces, and how to perform laser . The novel imaging technology builds on . SPA has experience designing optics for fabrication with . Machine shop, metal fabrication, plastic machining. Often, optical systems need to mitigate stray light contributions . Lens design is one of the primary capacities of SPA. Experienced in display device systems and performing stray light analysis on complex hardware.

We support large and small companies addressing needs as diverse as low cost injection . Specialties: Optical systems include: lens design, illumination design, stray light analysis, injection molded optics . Photonics and Nano Devices Research at UW EE includes quantum electronics, nanoscale optics, novel photon sources, and optical metamaterials, with applications in quantum science, imaging,. Welcome to the Human Photonics Laboratory (HPL) at the University of Washington located in Seattle. Our goal is to advance the frontier of optical technology in the areas of human performance, cancer detection, and treatment.

The HPL has historical ties with the Human Interface Technology Lab at the University of . A center funded by NSF that provides support to community and technical colleges to develop and encourage optics, laser, and photonics education. Once you successfully complete the training, you will be granted key access to the rooms. CEBR builds on the success of the now completed Hooked On Photonics REU program. CEI Graduate Fellow Evan Jahrman works with CEBR students in the Seidler Lab (Physics).

Program Goals: Encourage students to pursue STEM careers. As silicon photonic engineers, we understand the complexity and effort required to validate designs. We created fontonica to make testing easier and improve productivity.

Our automated system speeds up the testing process — allowing you to spend more time developing new ideas and less time in the lab setting up tests. According to Brookings Institute report, San Francisco, Boston, Austin, Seattle , San Diego, Portlan Rochester and Minneapolis are in the upper tier of large . Any opinions, findings, and conclusions or recommendations expressed in this material are those of the authors and do not necessarily .