Company Filing History:
Years Active: 2021
Title: Innovations of Mohamed I Ibrahim in Quantum Magnetometry
Introduction
Mohamed I Ibrahim is an accomplished inventor based in Cambridge, MA (US). He has made significant contributions to the field of quantum magnetometry, particularly through his innovative patent that enhances magnetic sensing technologies.
Latest Patents
Ibrahim holds a patent titled "On-chip detection of spin states in color centers for metrology and information processing." This invention utilizes the Zeeman shift of electronic spins in nitrogen-vacancy (NV) centers in diamond. It has been effectively employed in lab-scale instruments for ultra-high-resolution, vector-based magnetic sensing. The quantum magnetometer he developed integrates a diamond-nanocrystal layer with NVs or NV-doped bulk diamond into a chip-integrated system. This compact package performs two essential functions for quantum magnetometry: strong generation and efficient delivery of microwave for quantum-state control, and optical filtering/detection of spin-dependent fluorescence for quantum-state readout. The microwave delivery can be achieved using a loop inductor or an array of wires integrated into the chip below the nanodiamond layer or diamond. Additionally, the wire array can suppress excitation light through a combination of plasmonic and, optionally, Talbot effects.
Career Highlights
Ibrahim is affiliated with the Massachusetts Institute of Technology, where he continues to push the boundaries of research in quantum technologies. His work has garnered attention for its potential applications in various fields, including metrology and information processing.
Collaborations
Ibrahim has collaborated with notable colleagues such as Christopher Foy and Donggyu Kim, contributing to the advancement of their shared research interests.
Conclusion
Mohamed I Ibrahim's innovative work in quantum magnetometry exemplifies the intersection of cutting-edge technology and practical application. His contributions are paving the way for future advancements in magnetic sensing and information processing.