Colloidal Quantum Dots-PMMA Waveguides as Integrable Microwave Photonic Phase Shifters

Author

Ricchiuti, Amelia Lavinia ; Suarez, I. ; Barrera, David ; Rodriguez-Canto, Pedro J. ; Fernandez-Pousa, C.R. ; Abargues, R. ; Sales, Salvador ; Martinez-Pastor, Juan ; Capmany, J.

Author_Institution

Opt. Quantum & Commun. Group, Univ. Politec. de Valencia, Valencia, Spain

Volume

26

Issue

4

fYear

2014

fDate

Feb.15, 2014

Firstpage

402

Lastpage

404

Abstract

A novel scheme for the control of microwave signals carried at optical wavelengths by use of PbS colloidal quantum dots embedded in PMMA waveguides is presented. When these structures are pumped at wavelengths where PbS has efficient absorption (980 or 1310 nm), a phase shift in a signal carried at 1550 nm is induced. Optimal conditions have been analyzed by studying the influence of the microwave signal and the waveguide structure. In a proof-of-concept experiment, a continuous phase shift up to 35 ^° at 25 GHz has been demonstrated, with good thermal stability ( at 25 GHz) when the samples are heated 20 ^°C above room temperature. The potential benefits of the use of this active-waveguide technology in microwave photonics are due to the continuous scan of the phase delay, its high tuning speed, and its small size, which leads to the possibility of integration.

Keywords

IV-VI semiconductors; colloids; lead compounds; microwave photonics; optical delay lines; optical information processing; optical phase shifters; optical planar waveguides; optical tuning; optical waveguide components; quantum dots; thermal stability; thermo-optical effects; PbS; PbS colloidal quantum dots; active-waveguide technology; colloidal quantum dot-PMMA waveguides; continuous phase shift; frequency 25 GHz; high tuning speed; integrable microwave photonic phase shifters; light absorption; microwave signal control; optical wavelengths; optimal conditions; phase delay; proof-of-concept experiment; temperature 20 degC; thermal stability; waveguide structure; wavelength 1310 nm; wavelength 1550 nm; wavelength 980 nm; Absorption; Electromagnetic heating; Microwave communication; Microwave photonics; Optical waveguides; Phase shifters; PMMA; PbS; colloidal QD; integrable microwave phase shifter; optical signal processing; planar waveguide;

fLanguage

English

Journal_Title

Photonics Technology Letters, IEEE

Publisher

ieee

ISSN

1041-1135

Type

jour

DOI

10.1109/LPT.2013.2295253

Filename

6692878