Title: Jerry L. Burnham: Innovator in Radiation Detection
Introduction
Jerry L. Burnham was a notable inventor in the field of radiation detection. His work primarily focused on developing instruments that could accurately measure neutron and gamma radiation. Despite having no patents to his name, his contributions to the field were significant and impactful.
Latest Patents
One of his notable inventions was the Neutron/Gamma Ray Survey Instrument with Directional Gamma Ray Sensitivity. This portable survey instrument was designed to yield the intensity of neutron radiation, the intensity of gamma radiation, and the direction of impinging gamma radiation. The instrument utilized a neutron detector surrounded by a rectangular moderator, with four gamma ray detectors symmetrically positioned around the neutron detector. The design ensured that the neutron measurement was equally sensitive to both fast and thermal neutrons. Additionally, the moderator induced angular responses to the gamma ray detectors, allowing for a parameter indicative of the angular position of a radiation source. This portable instrument was well-suited for handheld use.
Career Highlights
Jerry L. Burnham worked at Delta Epsilon Instruments, where he contributed to the development of advanced radiation detection technologies. His expertise in the field allowed him to create instruments that enhanced safety and measurement accuracy in various applications.
Collaborations
Throughout his career, Burnham collaborated with notable colleagues, including Fred E. Fowler and Robert D. Wilson. Their combined efforts in the field of radiation detection helped advance the technology and methodologies used in the industry.
Conclusion
Jerry L. Burnham's innovative work in radiation detection instruments has left a lasting legacy in the field. His contributions, particularly the Neutron/Gamma Ray Survey Instrument, demonstrate the importance of precision in measuring radiation. His career serves as an inspiration for future inventors and innovators in the field.