Company Filing History:
Years Active: 2003-2019
Title: The Innovations of Robert Ira Lutwak
Introduction
Robert Ira Lutwak is an accomplished inventor based in Marblehead, MA (US). He holds a total of 3 patents that showcase his expertise in advanced sensing technologies. His work primarily focuses on the development of innovative apparatuses and methods for sensing rotations.
Latest Patents
One of Lutwak's latest patents is the "Chip-scale atomic gyroscope." This invention provides apparatuses and methods for sensing rotations, utilizing a cell containing alkali and active nuclear magnetic resonance (NMR) isotope atoms. The apparatus includes a magnet that generates a first magnetic field, a light source, and optics that circularly polarize light to create a pump beam for optically pumping the alkali atoms. Additionally, it features a partial reflector and polarizing beam splitters that help detect rotations by analyzing the probe beam's components.
Another significant patent is the "Miniature gas cell with folded optics." This invention presents a miniature optical system designed for instruments based on laser spectroscopy of atomic and molecular samples. The system employs a folded optical path that allows light from a laser diode to pass through the cell twice, enhancing efficiency and enabling cost-effective batch processing of key components.
Career Highlights
Throughout his career, Lutwak has worked with notable companies such as Symmetricom, Inc. and Microsemi Frequency and Time Corporation. His contributions to these organizations have significantly advanced the field of precision measurement and sensing technologies.
Collaborations
Lutwak has collaborated with esteemed colleagues, including William J. Riley, Jr. and Kenneth D. Lyon. Their combined expertise has fostered innovation and development in their respective fields.
Conclusion
Robert Ira Lutwak's contributions to the field of sensing technologies through his patents and collaborations highlight his role as a leading inventor. His work continues to influence advancements in precision measurement and optical systems.