RESEARCH OF THE EFFECTS OF INTEGRATION INTO ARMOR ON THE PERFORMANCE OF SPINTRONIC MICROWAVE DETECTORS

2024-01-3334

11/15/2024

Features
Event
2012 Ground Vehicle Systems Engineering and Technology Symposium
Authors Abstract
Content
ABSTRACT

The authors studied the effects of different types of armor on the performance of spin-torque microwave detectors (STMD). Working prototypes of novel nano-sized spintronic sensors of microwave radiation for battlefield anti-radar and wireless communications applications are being integrated into Sensor Enhanced Armor (SEA) and Multifunctional Armor (MFA) and tested in SEA-NDE Lab at TARDEC. The preliminary theoretical estimations have shown that STMD based on the spin-torque effect in magnetic tunnel junctions (MTJ), when placed in the external electromagnetic field of a microwave frequency, can work as diode detectors with the maximum theoretical sensitivity of 1000 V/W. These STNO detectors could be scaled to sub-micron size, are frequency-selective and tunable, and are tolerant to ionizing radiation. We studied the performance of a STMD in two different dynamical regimes of detector operation: in well-known traditional in-plane regime of STMD operation and in recently discovered novel out-of-plane regime.

Meta TagsDetails
DOI
https://doi.org/10.4271/2024-01-3334
Pages
5
Citation
Bankowski, E., Meitzler, T., and Pesys, T., "RESEARCH OF THE EFFECTS OF INTEGRATION INTO ARMOR ON THE PERFORMANCE OF SPINTRONIC MICROWAVE DETECTORS," SAE Technical Paper 2024-01-3334, 2024, https://doi.org/10.4271/2024-01-3334.
Additional Details
Publisher
Published
Nov 15
Product Code
2024-01-3334
Content Type
Technical Paper
Language
English