Jamie Milligan

Title: Innovations of Jamie Milligan

Introduction

Jamie Milligan is an accomplished inventor based in San Diego, California. She has made significant contributions to the field of radiation detection through her innovative designs. With a total of two patents to her name, Milligan is recognized for her expertise and creativity in developing advanced technologies.

Latest Patents

One of Jamie Milligan's latest patents is a nanodosimeter based on single ion detection. This device is designed to detect positive ions induced in a sensitive gas volume by a radiation field of primary particles. The nanodosimeter comprises an ionization chamber that holds the sensitive gas volume to be irradiated. It features an ion counter system connected to the ionization chamber for detecting positive ions that pass through an aperture opening. Additionally, a particle tracking system allows for position-sensitive detection of primary particles passing through the sensitive gas volume. The data acquisition system coordinates the readout of all data signals and performs data analysis correlating the arrival time of the positive ions detected by the ion counter system with the position-sensitive data of primary particles. This invention also includes a method for calibrating radiation exposure with damage to nucleic acids within a sample.

Career Highlights

Throughout her career, Jamie Milligan has worked with notable institutions, including Loma Linda University and Yeda, Ltd. Her work has focused on advancing the understanding and measurement of radiation exposure, contributing to the safety and efficacy of radiation applications in various fields.

Collaborations

Jamie has collaborated with esteemed colleagues, including Vladimir A Bashkirov and Reinhard W Schulte. These partnerships have further enhanced her research and development efforts in the field of radiation detection.

Conclusion

Jamie Milligan's innovative work in developing advanced radiation detection technologies has made a significant impact in her field. Her contributions continue to pave the way for future advancements in radiation safety and measurement.