Company Filing History:
2 out of 1,080 
2 out of 2,103 
Years Active: 2006
Title: Joel Allred: Innovator in Atomic Magnetometry
Introduction
Joel Allred is a notable inventor based in Seattle, WA, recognized for his contributions to the field of atomic magnetometry. He holds 2 patents that showcase his innovative approach to measuring low intensity magnetic fields. His work has significant implications in various scientific and medical applications.
Latest Patents
One of Joel Allred's latest patents is titled "High sensitivity atomic magnetometer and methods for using same." This invention provides a high sensitivity atomic magnetometer and methods for measuring low intensity magnetic fields. It involves the use of an alkali metal vapor and a buffer gas to increase the magnetic polarization of the alkali metal vapor, thereby enhancing its sensitivity to low intensity magnetic fields. The invention includes probing means that provide an output from the alkali metal vapor, which contains characteristics related to the low intensity magnetic field. Additionally, it features measuring means that receive the output, determine the characteristics of the low intensity magnetic field, and provide a representation of it. The invention also relates to a magnetometer that offers a representation of a first magnetic field originating within a sample volume, which may include part or all of a human subject.
Career Highlights
Throughout his career, Joel Allred has worked with prestigious institutions such as Princeton University and the University of Washington. His experience in these academic environments has allowed him to develop and refine his innovative ideas in atomic magnetometry.
Collaborations
Joel has collaborated with notable colleagues, including Michael Romalis and Tom Kornack. Their combined expertise has contributed to advancements in the field of magnetometry.
Conclusion
Joel Allred's work in atomic magnetometry exemplifies the intersection of innovation and practical application. His patents reflect a commitment to advancing scientific understanding and technology in measuring magnetic fields.