Prices increase 10 January
Register now
>
25 - 30 January 2025
San Francisco, California, US
Conference 13354 > Paper 13354-34
Paper 13354-34

One step femtosecond direct laser writing (Fs-DLW) of tunable optical vortex (OV) generator

30 January 2025 • 9:25 AM - 9:40 AM PST | Moscone South, Room 201 (Level 2)

Abstract

Optical vortices (OVs) find applications in various fields including high-order quantum entanglement, optical tweezers, astrometry, medicinal applications, and nonlinear optics. However, traditional passive methods for generating OVs, such as custom synthetic holograms, spiral wave plates, double cylindrical lens phase converters, light scattering from uneven surfaces, and interference of regular waves, often produce single-mode OVs or lack adjustability and flexibility. Here, we introduce an innovative, fully characterized, passively tunable device for generating optical vortices. This device is fabricated using 3D femtosecond direct laser writing (3D fs-SLW) techniques and incorporates a three-dimensional pattern of silver microstructures embedded in a biodegradable polymer matrix. The 3D silver patterning is achieved through multiphoton-assisted photoreduction. This novel approach offers significant potential for advanced applications such as optical tweezers and micro/nano photonics.

Presenter

Lawrence Berkeley National Lab. (United States)
Dr. Saurabh Awasthi is a postdoctoral research scholar at Lawrence Berkeley National Laboratory (LBNL) in laser technology group. He holds a PhD degree in Physics from Macquarie University, Sydney, Australia. His research focuses on Ultrafast laser material processing, femtosecond laser matter interaction, laser pulse patterning and laser 3D fabrication including photoreduction.
Application tracks: 3D Printing
Presenter/Author
Lawrence Berkeley National Lab. (United States)
Author
SeungYeon Kang
Univ. of Connecticut (United States)
Author
Lawrence Berkeley National Lab. (United States)