English

Complex wavefront engineering with disorder-engineered metasurfaces

Optics 2018-03-14 v1

Abstract

Recently, complex wavefront engineering with disordered media has demonstrated optical manipulation capabilities beyond those of conventional optics. These capabilities include extended volume, aberration-free focusing and subwavelength focusing via evanescent mode coupling. However, translating these capabilities to useful applications has remained challenging as the input-output characteristics of the disordered media (PP variables) need to be exhaustively determined via O(P)O(P) measurements. Here, we propose a paradigm shift where the disorder is specifically designed so that its exact characteristics are known, resulting in an a priori determined transmission matrix that can be utilized with only a few alignment steps. We implement this concept with a disorder-engineered metasurface, which exhibits additional unique features for complex wavefront engineering such as an unprecedented optical memory effect range, excellent stability, and a tailorable angular scattering profile.

Keywords

Cite

@article{arxiv.1706.08640,
  title  = {Complex wavefront engineering with disorder-engineered metasurfaces},
  author = {Mooseok Jang and Yu Horie and Atsushi Shibukawa and Joshua Brake and Yan Liu and Seyedeh Mahsa Kamali and Amir Arbabi and Haowen Ruan and Andrei Faraon and Changhuei Yang},
  journal= {arXiv preprint arXiv:1706.08640},
  year   = {2018}
}
R2 v1 2026-06-22T20:30:26.101Z