# A single-crystalline silver plasmonic circuit for visible quantum   emitters

**Authors:** Christian Sch\"orner, Subhasis Adhikari, Markus Lippitz

arXiv: 1902.08433 · 2019-04-26

## TL;DR

This paper presents a novel single-crystalline silver plasmonic circuit that enables efficient visible light manipulation and quantum emitter interaction, overcoming previous limitations of gold-based plasmonic devices.

## Contribution

The authors fabricated complex plasmonic nanostructures in single-crystalline silver, demonstrating controlled excitation and emission of visible quantum emitters with high efficiency.

## Key findings

- Controlled remote excitation of fluorophores via waveguide modes
- High-efficiency emission of visible luminescence into the waveguide
- Enabling nanoscale light-matter interaction studies in the visible spectrum

## Abstract

Plasmonic waveguides are key elements in nanophotonic devices serving as optical interconnects between nanoscale light sources and detectors. Multimode operation in plasmonic two-wire transmission lines promises important degrees of freedom for near-field manipulation and information encoding. However, highly confined plasmon propagation in gold nanostructures is typically limited to the near-infrared region due to ohmic losses, excluding all visible quantum emitters from plasmonic circuitry. Here, we report on top-down fabrication of complex plasmonic nanostructures in single-crystalline silver plates. We demonstrate controlled remote excitation of a small ensemble of fluorophores by a set of waveguide modes and emission of the visible luminescence into the waveguide with high efficiency. This approach opens up the study of nanoscale light-matter interaction between complex plasmonic waveguides and a large variety of quantum emitters available in the visible spectral range.

---
Source: https://tomesphere.com/paper/1902.08433