SBIR-STTR Award

Vector Magnetometer based on Dispersive Cavity Readout of Nitrogen Vacancies in Diamond
Award last edited on: 2/19/2023

Sponsored Program
STTR
Awarding Agency
DOD : Navy
Total Award Amount
$1,238,489
Award Phase
2
Solicitation Topic Code
N19A-T006
Principal Investigator
Henry Timmers

Company Information

Vescent Photonics LLC (AKA: Vescent Photonics Inc)

14998 West 6th Avenue Suite 700
Golden, CO 80401
   (303) 296-6766
   sales@vescent.com
   www.vescent.com

Research Institution

MIT Lincoln Laboratory

Phase I

Contract Number: N68335-19-C-0642
Start Date: 7/25/2019    Completed: 1/21/2020
Phase I year
2019
Phase I Amount
$139,993
Vescent Photonics and MIT Lincoln Labs (MIT-LL) propose to develop a quantum-based vector magnetometer with low size, weight, power, and cost (SWaP+C) for Navy applications. The proposed system will rely on probing magnetically-sensitive, atomic-like transitions of nitrogen-vacancy (NV) centers in diamond to provide stable, high-bandwidth readout of the vector magnetic field with sub-picotesla sensitivity. The MIT-LL team are experts in NV diamond magnetometry with working benchtop prototypes and in-house diamond growth capabilities. The MIT-LL magnetometer has already successfully demonstrated scale-factor-free vector field measurements with high dynamic range (>4 mT) and excellent long-term stability. As a commercial vendor of high-performance laser systems, Vescent Photonics has expertise in developing low-noise, low SWaP electronics and in packaging micro-electro-optical systems for use in fielded applications. Together, the two teams will convert the MIT-LL benchtop magnetometer to a compact, all-solid-state, deployable module capable of detecting magnetic fields with sub-pT/Hz1/2 sensitivities.Compact Sensor,quantum sensing,nitrogen vacancy centers,Magnetometry,optically detected magnetic resonance (ODMR),diamond-based magnetometer

Phase II

Contract Number: N68335-21-C-0027
Start Date: 10/26/2020    Completed: 9/28/2022
Phase II year
2021
Phase II Amount
$1,098,496
Vescent Photonics, LLC, (Vescent) and the Massachusetts Institute of Technology Lincoln Laboratory (MIT-LL) propose to develop a low-noise, field-deployable vector magnetometer based on the dispersive cavity readout (DCR) of nitrogen vacancy (NV) diamond. Solid-state quantum systems based on NV-diamond centers have many intrinsic properties that make them well-suited as stable, sensitive platforms for portable quantum sensors. The proposed magnetometer takes advantage of the intrinsic stability, vector capability, and miniaturization potential of the NV-diamond solid-state quantum system while providing significant gains in magnetic sensitivity, power consumption reduction, and sensor robustness by employing a novel, non-optical readout technique developed at MIT-LL. By using a microwave readout instead of an optical readout, DCR provides unity measurement contrast, enabling orders-of-magnitude improvement in readout fidelity and measurement sensitivity. Additionally, the scaling of magnetic sensitivity with optical power used for NV state preparation is more favorable in the DCR approach, enabling the use of electrically efficient, high-optical-power LEDs with a significant reduction in size, weight, power, and cost (SWaP-C) for portable field-deployed applications. In Phase I work, theoretical analyses and initial laboratory measurements indicate that a DCR-based NV-diamond magnetometer can meet many of the Department of Defense’s formidable program requirements for detecting slow-moving targets with weak magnetic signatures while maintaining a low overall SWaP-C. In Phase II, Vescent and MIT-LL propose a systematic research and development program that will advance the current TRL-2 laboratory setups to TRL-5 brassboard prototypes for field testing by the Navy.