Jillian N. Noblet
Papers
2
Total Citations
5
H-Index
2
About
Jillian N. Noblet is a rising researcher in advanced fiber-optic sensing technologies, with a focus on multimodal fiber antennas for environmental and structural monitoring. Her work centers on developing thermally drawn fibers that integrate sensing capabilities for proximity, stress, and deformation detection, pushing the boundaries of what fiber sensors can achieve. Noblet’s major contributions include the design and demonstration of a multimodal fiber antenna capable of simultaneous proximity and stress sensing, as well as a sub-terahertz fiber antenna for detecting environmental changes and fiber deformation. These innovations leverage the inherent advantages of thermally drawn fibers—such as enhanced sensitivity, accuracy, and manufacturing ease—to create multifunctional sensors for applications ranging from physiological monitoring to structural health assessment. While her citation counts are currently modest (3 and 2 citations for her most-cited papers, respectively), her work represents a promising frontier in smart textiles and wearable technology. Noblet’s research is notable for its interdisciplinary approach, merging materials science, electromagnetics, and sensor engineering, and positions her as an emerging voice in next-generation fiber-based sensing systems.
Research Focus
Key Achievements
Top Papers
- 1Multimodal fiber antenna for proximity and stress sensing3 citations · 2024
- 2