Company Filing History:
Years Active: 2004
Title: Carina R. Reisin: Innovator in Spatial Light Modulators
Introduction
Carina R. Reisin is a prominent inventor based in Irvine, CA, known for her contributions to the field of optical technology. With a focus on spatial light modulators, she has made significant strides in improving inter-pixel performance, which is crucial for various applications in imaging and display technologies.
Latest Patents
Carina holds a patent for her invention titled "Spatial light modulators with improved inter-pixel performance." This innovative reflective spatial light modulator (SLM) comprises a first substrate, a second substrate, and an electro-optic material positioned between them. The first substrate features a reflective ground layer that serves as a continuous first electrode, while the second substrate includes a pixel layer with multiple pixel elements arranged in a specific pattern. These pixel elements are made of a transparent conductive material and are separated by non-conductive inter-pixel regions. The transmissivity of the electro-optic material near each pixel element is controlled by a potential difference applied between the first electrode and the respective pixel element. This invention enhances the performance and efficiency of spatial light modulators, making them more effective for various applications.
Career Highlights
Carina is currently employed at Corning Incorporated, a leading company in materials science and optical technology. Her work at Corning has allowed her to collaborate with other talented professionals in the field, further advancing her research and innovations.
Collaborations
Some of Carina's notable coworkers include Lisa A. Caracci and John Kondis, who contribute to the collaborative environment at Corning Incorporated. Their combined expertise fosters innovation and drives the development of cutting-edge technologies.
Conclusion
Carina R. Reisin's work in spatial light modulators exemplifies her commitment to advancing optical technology. Her innovative patent and collaboration with esteemed colleagues highlight her significant contributions to the field.