Company Filing History:
Years Active: 1977
Title: Edward Stephen Sabisky: Innovator in Magnetic Field Measurement
Introduction
Edward Stephen Sabisky is a notable inventor based in Trenton, NJ (US). He is recognized for his contributions to the field of magnetic field measurement, particularly through his innovative patent for an optical gaussmeter. His work has implications in various scientific and engineering applications, especially in the realm of superconducting magnets.
Latest Patents
Edward Stephen Sabisky holds a patent for a Gaussmeter, which is designed to determine the magnitude and homogeneity of the magnetic field in the core of a superconducting magnet. This device utilizes a crystal of calcium fluoride doped with divalent thulium, which is strategically placed within the magnet's core. The crystal is exposed to RF radiation and a narrow beam of light filtered to a specific wavelength that corresponds to the absorption band of the divalent thulium. The alterations in the light beam signal, influenced by the crystal's absorption characteristics, correspond to the measured magnet current, thereby indicating the field magnitude to be determined.
Career Highlights
Throughout his career, Sabisky has made significant strides in the field of magnetic measurement technologies. His innovative approach to utilizing optical methods for gauging magnetic fields has set a precedent for future developments in this area. His work is characterized by a blend of theoretical knowledge and practical application, making him a valuable contributor to the scientific community.
Collaborations
Edward Stephen Sabisky has collaborated with notable professionals in his field, including his coworker Charles H. Anderson. Their partnership has fostered advancements in the technologies related to magnetic field measurement.
Conclusion
Edward Stephen Sabisky's contributions to the field of magnetic measurement through his patented Gaussmeter exemplify his innovative spirit and dedication to advancing technology. His work continues to influence the scientific community and paves the way for future innovations in magnetic field analysis.