Company Filing History:
Years Active: 2005
Title: **The Innovations of Oana Malis: Pioneering Optical Devices**
Introduction
Oana Malis, an accomplished inventor based in Chatham, NJ, has made significant strides in the field of optical engineering. With one patent to her name, she has contributed to the advancement of parametric light generation through innovative monolithic integration techniques.
Latest Patents
Malis holds a patent titled "Phase matched parametric light generation in monolithically integrated intersubband optical devices." This groundbreaking optical device includes a cavity resonator and an intracavity ridge waveguide. The ridge waveguide features a monolithically integrated intersubband core region that works alongside a nonlinear mixing region (NMR). When subject to external pumping energy, the core region generates laser light at a first frequency and in a first transverse mode. The NMR subsequently produces parametric light at a second frequency and in a second transverse mode. Crucially, the patent addresses true phase matching by ensuring that the width of the ridge aligns with a specific phase matching width, optimizing effective refractive index characteristics.
Career Highlights
Malis's research is further complemented by her role at Lucent Technologies Inc., a company renowned for its innovations in communication technologies. Her work focuses on integrating advanced optical devices to push the boundaries of traditional applications.
Collaborations
Throughout her career, Malis has collaborated with remarkable colleagues, including Alexey Belyanin and Alfred Yi Cho. These partnerships have enhanced her research pursuits and fostered an environment of creativity and shared knowledge in the field of photonics.
Conclusion
Oana Malis exemplifies the spirit of innovation in optical engineering. Her pioneering work in phase-matched parametric light generation is a testament to her dedication and expertise. With continued collaboration and a commitment to excellence, Malis is poised to further influence the future of optical devices.