Fully monolithic photonic integrated circuits for microwave and millimeter wave signal generation

G. Carpintero, K. Balakier, Carlos Gordon Gallegos, G. Kervalla, R.C. Guzmán, A. Jimenez, M. Fice, M. Chitoui, Frédéric Van Dijk, X.J.M. Leijtens

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

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Abstract

We present two different photonic integrated circuits aimed to generate electrical signals within the microwave and millimeter wave range with two different techniques. The first approach uses the heterodyne technique, implementing a monolithic dual wavelength source by integrating on a single chip two distributed feedback (DFB) lasers together with the high speed photodiode. The second approach, using mode locked lasers, describes a novel device structure based on multimode interference reflectors (MIR).
Original languageEnglish
Title of host publicationProgress in Electromagnetics Research Symposium Proceedings, 25-28 Augustus 2014, Guangzhou, China
Pages1711-1714
Publication statusPublished - 2014

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distributed feedback lasers
millimeter waves
reflectors
photodiodes
integrated circuits
chips
high speed
photonics
interference
microwaves
wavelengths
lasers

Cite this

Carpintero, G., Balakier, K., Gordon Gallegos, C., Kervalla, G., Guzmán, R. C., Jimenez, A., ... Leijtens, X. J. M. (2014). Fully monolithic photonic integrated circuits for microwave and millimeter wave signal generation. In Progress in Electromagnetics Research Symposium Proceedings, 25-28 Augustus 2014, Guangzhou, China (pp. 1711-1714)
Carpintero, G. ; Balakier, K. ; Gordon Gallegos, Carlos ; Kervalla, G. ; Guzmán, R.C. ; Jimenez, A. ; Fice, M. ; Chitoui, M. ; Van Dijk, Frédéric ; Leijtens, X.J.M. / Fully monolithic photonic integrated circuits for microwave and millimeter wave signal generation. Progress in Electromagnetics Research Symposium Proceedings, 25-28 Augustus 2014, Guangzhou, China. 2014. pp. 1711-1714
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title = "Fully monolithic photonic integrated circuits for microwave and millimeter wave signal generation",
abstract = "We present two different photonic integrated circuits aimed to generate electrical signals within the microwave and millimeter wave range with two different techniques. The first approach uses the heterodyne technique, implementing a monolithic dual wavelength source by integrating on a single chip two distributed feedback (DFB) lasers together with the high speed photodiode. The second approach, using mode locked lasers, describes a novel device structure based on multimode interference reflectors (MIR).",
author = "G. Carpintero and K. Balakier and {Gordon Gallegos}, Carlos and G. Kervalla and R.C. Guzm{\'a}n and A. Jimenez and M. Fice and M. Chitoui and {Van Dijk}, Fr{\'e}d{\'e}ric and X.J.M. Leijtens",
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pages = "1711--1714",
booktitle = "Progress in Electromagnetics Research Symposium Proceedings, 25-28 Augustus 2014, Guangzhou, China",

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Carpintero, G, Balakier, K, Gordon Gallegos, C, Kervalla, G, Guzmán, RC, Jimenez, A, Fice, M, Chitoui, M, Van Dijk, F & Leijtens, XJM 2014, Fully monolithic photonic integrated circuits for microwave and millimeter wave signal generation. in Progress in Electromagnetics Research Symposium Proceedings, 25-28 Augustus 2014, Guangzhou, China. pp. 1711-1714.

Fully monolithic photonic integrated circuits for microwave and millimeter wave signal generation. / Carpintero, G.; Balakier, K.; Gordon Gallegos, Carlos; Kervalla, G.; Guzmán, R.C.; Jimenez, A.; Fice, M.; Chitoui, M.; Van Dijk, Frédéric; Leijtens, X.J.M.

Progress in Electromagnetics Research Symposium Proceedings, 25-28 Augustus 2014, Guangzhou, China. 2014. p. 1711-1714.

Research output: Chapter in Book/Report/Conference proceedingConference contributionAcademicpeer-review

TY - GEN

T1 - Fully monolithic photonic integrated circuits for microwave and millimeter wave signal generation

AU - Carpintero, G.

AU - Balakier, K.

AU - Gordon Gallegos, Carlos

AU - Kervalla, G.

AU - Guzmán, R.C.

AU - Jimenez, A.

AU - Fice, M.

AU - Chitoui, M.

AU - Van Dijk, Frédéric

AU - Leijtens, X.J.M.

PY - 2014

Y1 - 2014

N2 - We present two different photonic integrated circuits aimed to generate electrical signals within the microwave and millimeter wave range with two different techniques. The first approach uses the heterodyne technique, implementing a monolithic dual wavelength source by integrating on a single chip two distributed feedback (DFB) lasers together with the high speed photodiode. The second approach, using mode locked lasers, describes a novel device structure based on multimode interference reflectors (MIR).

AB - We present two different photonic integrated circuits aimed to generate electrical signals within the microwave and millimeter wave range with two different techniques. The first approach uses the heterodyne technique, implementing a monolithic dual wavelength source by integrating on a single chip two distributed feedback (DFB) lasers together with the high speed photodiode. The second approach, using mode locked lasers, describes a novel device structure based on multimode interference reflectors (MIR).

M3 - Conference contribution

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EP - 1714

BT - Progress in Electromagnetics Research Symposium Proceedings, 25-28 Augustus 2014, Guangzhou, China

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Carpintero G, Balakier K, Gordon Gallegos C, Kervalla G, Guzmán RC, Jimenez A et al. Fully monolithic photonic integrated circuits for microwave and millimeter wave signal generation. In Progress in Electromagnetics Research Symposium Proceedings, 25-28 Augustus 2014, Guangzhou, China. 2014. p. 1711-1714