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Literature DB >> 28505412

Diffraction-Free Bloch Surface Waves.

Ruxue Wang¹, Yong Wang¹, Douguo Zhang¹, Guangyuan Si², Liangfu Zhu¹, Luping Du³, Shanshan Kou⁴, Ramachandram Badugu⁵, Mary Rosenfeld⁵, Jiao Lin^2,3, Pei Wang¹, Hai Ming¹, Xiaocong Yuan³, Joseph R Lakowicz⁵.

Abstract

Here, we demonstrate a diffraction-free Bloch surface wave sustained on all-dielectric multilayers that does not diffract after being passed through three obstacles or across a single mode fiber. It can propagate in a straight line for distances longer than 110 μm at a wavelength of 633 nm and could be applied as an in-plane optical virtual probe both in air and in an aqueous environment. Its ability to be used in water, its long diffraction-free distance, and its tolerance to multiple obstacles make this wave ideal for certain applications in areas such as the biological sciences, where many measurements are made on glass surfaces or for which an aqueous environment is required, and for high-speed interconnections between chips, where low loss is necessary.

Entities: Chemical Disease Gene Species

Keywords: Bloch surface wave; aqueous environment; dielectric multilayer; diffraction; diffraction-free propagation; plasmonics; self-healing

Mesh：

Substances：

Year: 2017 PMID： 28505412 PMCID： PMC5777330 DOI： 10.1021/acsnano.7b02358

Source DB: PubMed Journal: ACS Nano ISSN： 1936-0851 Impact factor: 15.881

32 in total

Review 1. Total internal reflection fluorescence microscopy in cell biology.

Authors: D Axelrod
Journal: Traffic Date: 2001-11 Impact factor: 6.215

Review 2. Protein microarray technology.

Authors: Markus F Templin; Dieter Stoll; Monika Schrenk; Petra C Traub; Christian F Vöhringer; Thomas O Joos
Journal: Trends Biotechnol Date: 2002-04 Impact factor: 19.536

Diffraction-Free Bloch Surface Waves.

Review 1. Total internal reflection fluorescence microscopy in cell biology.

Review 2. Protein microarray technology.

3. Airy plasmon: a nondiffracting surface wave.

4. Leakage radiation interference microscopy.

5. Polymer-loaded propagating modes on a one-dimensional photonic crystal.

6. Bloch surface wave-enhanced fluorescence biosensor.

7. Trapping-assisted sensing of particles and proteins using on-chip optical microcavities.

8. Planar photonics with metasurfaces.

9. Combining label-free and fluorescence operation of Bloch surface wave optical sensors.

10. Total internal reflection fluorescence flow cytometry.

1. Two-Dimensional Photonic Devices based on Bloch Surface Waves with One-Dimensional Grooves.

2. Silver Nanowires for Reconfigurable Bloch Surface Waves.

3. Superluminal X-waves in a polariton quantum fluid.

4. Toward broadband, dynamic structuring of a complex plasmonic field.