Optical Tomography of Laser-Fabricated Waveguides

Authors

Shalmalee Deshpande, Binghamton University--SUNY
Nicole Batista, Binghamton University--SUNY
Devi Sapkota, Binghamton University--SUNY
Jack Agnes, Binghamton University--SUNY
Cameron Lapadula, Binghamton University--SUNY
Yuxuan Zhang, Binghamton University--SUNY
Bonggu Shim, Binghamton University--SUNY

Publication Date

2025

Document Type

Article

Description

This study employs optical tomography to investigate the 3-D index profiles of femtosecond laser-fabricated waveguides. By immersing the waveguides in an index-matching fluid, this research reconstructs their internal structure and analyzes their 3-D index profiles using interferometer-based optical tomography. To establish a benchmark, this method is first applied to a commercial fiber optic cable, providing a reference for evaluating the laser-written waveguides. In particular, the machine-learning technique is utilized for limited-angle tomography to visualize the 3-D index profiles inside glass. This method has the potential of 3-D visualization of waveguides and structures for system-on-chip applications, where precise control in fabrication and component visualization is critical for efficient optical communication and processing.

Files

Recommended Citation

Deshpande, Shalmalee; Batista, Nicole; Sapkota, Devi; Agnes, Jack; Lapadula, Cameron; Zhang, Yuxuan; and Shim, Bonggu, "Optical Tomography of Laser-Fabricated Waveguides" (2025). Research Days Posters 2025. 36.
https://orb.binghamton.edu/research_days_posters_2025/36