Vikram Bhatia

Title: Vikram Bhatia: Innovator in Optical Waveguide Technology

Introduction

Vikram Bhatia is a notable inventor based in Blacksburg, Virginia, recognized for his contributions to optical waveguide technology. He holds a patent that showcases his innovative approach to sensing physical parameters through advanced optical arrangements. His work has implications in various fields, including telecommunications and environmental monitoring.

Latest Patents

Vikram Bhatia's most recent patent is titled "Optical waveguide sensor arrangement having guided modes-non guided." This invention involves an optical waveguide designed to sense at least one physical parameter. The arrangement includes guided modes, lossy non-guided modes, and a long period grating that couples these modes. The long period grating produces a wavelength transmission spectrum that is functionally dependent on the physical parameter being sensed. The optical waveguide sensor is equipped with a light source and an optoelectronic detector that captures the transmitted light. Additionally, a processing means correlates the wavelength transmission spectrum with a numerical value for the sensed physical parameter, which can include temperature, strain, shape, refractive index, and corrosion.

Career Highlights

Throughout his career, Vikram Bhatia has worked with several prominent companies, including F&S, LLC and Lucent Technologies Inc. His experience in these organizations has contributed to his expertise in optical technologies and sensor arrangements.

Collaborations

Vikram has collaborated with notable professionals in his field, including Ashish Madhukar Vengsarkar and Jonathan A Greene. These collaborations have likely enriched his work and expanded the impact of his inventions.

Conclusion

Vikram Bhatia's innovative contributions to optical waveguide technology demonstrate his commitment to advancing the field of sensing technologies. His patent reflects a significant step forward in the ability to measure various physical parameters accurately.