Anbo Wang
Virginia Tech
6 Papers
2 Citations
Anbo Wang is an academic researcher from Virginia Tech. The author has contributed to research in topics: Fiber Bragg grating & Waveguide (acoustics). The author has an hindex of 3, co-authored 6 publications.
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Papers
Spatially expandable fiber-based probes as a multifunctional deep brain interface.
Shan Jiang,Dipan C. Patel,Jongwoon Kim,Shuo Yang,William A. Mills,Yujing Zhang,Kaiwen Wang,Ziang Feng,Sujith Vijayan,Wenjun Cai,Anbo Wang,Yuanyuan Guo,Ian F. Kimbrough,Harald Sontheimer,Xiaoting Jia +14 more
TL;DR: This technique enables three-dimensional manipulation and mapping of brain activities across distant regions in the deep brain with minimal tissue damage, which can bring new insights for deciphering complex brain functions and dynamics in the near future.
Application of Sapphire-Fiber-Bragg-Grating-Based Multi-Point Temperature Sensor in Boilers at a Commercial Power Plant
Shuo Yang,Daniel S. Homa,Hanna Heyl,Logan Theis,John Beach,Billy Dudding,Glen Acord,Dwyn Taylor,Gary Pickrell,Anbo Wang +9 more
TL;DR: A multi-point temperature sensor based on wavelength-multiplexed sapphire fiber Bragg gratings was fabricated via the point-by-point method with a femtosecond laser, showing the survivability of the sensor in a field environment.
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Spatially expandable fiber-based probes as a multifunctional deep brain interface
Shan Jiang,Dipan C. Patel,Jongwoon Kim,Shuo Yang,William A. Mills,Yujing Zhang,Kaiwen Wang,Ziang Feng,Sujith Vijayan,Wenjun Cai,Anbo Wang,Yuanyuan Guo,Ian F. Kimbrough,Harald Sontheimer,Xiaoting Jia +14 more
TL;DR: This technique enables three-dimensional manipulation and mapping of brain activities across distant regions in the deep brain with minimal tissue damage, which can bring new insights for deciphering complex brain functions and dynamics in the near future.
Single Mode Air-Clad Single Crystal Sapphire Optical Fiber
TL;DR: In this paper, a single mode propagation in an air-cladding single crystal sapphire optical fiber at wavelengths at and above 783 nm was observed for the first time.
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An Acoustic Waveguide With Tight Field Confinement for High Temperature Sensing
TL;DR: In this article, a fused quartz acoustic waveguide structure was reported as the suspended core waveguide, which was fabricated by suspending its core rod in the middle of the hollow cladding tube by discrete thin supporting disks.
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