Company Filing History:
Years Active: 1988-1990
Title: Innovations of Wesson P Sargent
Introduction
Wesson P Sargent is a notable inventor based in Goleta, California. He holds 2 patents that showcase his contributions to the field of cryogenics and infrared detection technology. His work has significantly advanced the efficiency and functionality of various devices.
Latest Patents
One of his latest patents is for a Dewar cryopumping using a molecular sieve. This innovative design employs a molecular sieve to adsorb gases within the dewar during the operation of the detector, effectively preventing liquid formation on the detector. The design ensures that outgassing and permeation during storage are minimized, as the dewar is maintained in partial pressure equilibrium with its environment. Additionally, a second molecular sieve can be utilized to absorb moisture that may permeate into the housing. Another significant patent is for an integrated infrared detector and cryoengine assembly. This apparatus is designed for mounting devices that detect infrared signals, featuring a housing and an expander. An insulating material made of polymeric foam is placed between the expander and the housing, allowing the apparatus to be cooled without the need for evacuation.
Career Highlights
Wesson P Sargent has made substantial contributions to the field while working at the Santa Barbara Research Center. His innovative designs and patents reflect his expertise and commitment to advancing technology in cryogenics and infrared detection.
Collaborations
Throughout his career, Sargent has collaborated with notable colleagues, including Leonard E Peck and Fred J Neitzel. Their combined efforts have contributed to the development of cutting-edge technologies in their respective fields.
Conclusion
Wesson P Sargent's work exemplifies innovation in cryogenics and infrared detection. His patents demonstrate a commitment to improving technology and enhancing device performance. His contributions continue to influence advancements in these critical areas.