Nezih Dural

Title: Nezih Dural: Innovator in Magnetic Gradiometry

Introduction

Nezih Dural is a prominent inventor based in Bordentown, NJ (US). He has made significant contributions to the field of magnetic gradiometry, holding a total of 3 patents. His work focuses on advanced techniques for measuring magnetic fields with high precision.

Latest Patents

One of Dural's latest patents is titled "System and method for femtotesla direct magnetic gradiometer using a multipass cell." This invention describes a direct magnetic gradiometer that utilizes intrinsic subtraction of rotation signals from two oppositely polarized atomic ensembles within a single multi-pass cell. The design incorporates three convex spherical mirrors arranged in a V-shape geometry, allowing for enhanced measurement capabilities. The probe laser beam is configured to focus at a near-zero angle into a hole at the center of the front mirror, expanding and reflecting multiple times between the mirrors before exiting.

Another notable patent is "Atomic magnetometry using pump-probe operation and multipass cells." This magnetometer is designed for use with a sample that includes atomic vapor. It features a multipass cell with two mirror elements that reflect an incoming light beam multiple times. The system includes a polarized pump light source to energize the sample and a polarized probe light source to analyze it. A detector measures the polarization angle or intensity of the probe light, while a processor calculates the precession frequency of the sample.

Career Highlights

Nezih Dural is affiliated with Princeton University, where he continues to advance research in magnetic measurement technologies. His innovative approaches have positioned him as a key figure in the field.

Collaborations

Dural has collaborated with notable colleagues, including Michael Romalis and Dong Sheng. Their combined expertise contributes to the advancement of research in atomic magnetometry and related fields.

Conclusion

Nezih Dural's contributions to magnetic gradiometry and atomic magnetometry highlight his role as an influential inventor. His patents reflect a commitment to innovation and precision in scientific measurement.