Company Filing History:
Years Active: 1993-2005
Title: **Inventor Spotlight: Albert J. Sievers**
Introduction
Albert J. Sievers, based in Ithaca, NY, is an accomplished inventor with a notable portfolio of three patents. His inventions primarily focus on advanced optical technologies and materials, demonstrating his significant contributions to the fields of spectroscopy and material science.
Latest Patents
Among his most recent innovations is the "Miniaturized holographic Fourier transform spectrometer with digital aberration correction." This patent features a digitally aberration-corrected miniaturized spectrometer that utilizes simple optical components and operates without moving parts. The design consists of a two-beam interferometer that creates interfering beams, a 2D array detector for capturing the interference pattern, and a computer that corrects aberrations and computes the final spectrum from the interferogram.
Another significant patent is the development of "Diamond and diamond-like films and coatings prepared by deposition on." This invention involves novel diamond thin films that are deposited onto a metal or ceramic composite. These films enhance the erosion resistance of materials, making them particularly useful for long-wave infrared applications, such as in domes and infrared windows.
Career Highlights
Albert J. Sievers is affiliated with the Cornell Research Foundation Inc., where he leverages his expertise to further research and development in innovative technologies. His career has been marked by a dedication to developing practical solutions that advance the use of optical and material technologies.
Collaborations
Throughout his career, Sievers has collaborated with other talented researchers, including coworkers Rishi Raj and Liang Yue. Together, they have worked on various projects that explore new frontiers in technological innovation, enhancing the capabilities of materials and optical devices.
Conclusion
Albert J. Sievers stands out as a key figure in the innovation landscape, making substantial contributions through his patents and collaborations. His work not only advances scientific understanding but also paves the way for practical applications that benefit industries reliant on advanced optical technologies and materials.