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Multimode couplers for integrated photonics

Grant number: 16/19270-6
Support Opportunities:Research Grants - Young Investigators Grants
Start date: October 01, 2017
End date: September 30, 2021
Field of knowledge:Engineering - Electrical Engineering - Telecommunications
Principal Investigator:Lucas Heitzmann Gabrielli
Grantee:Lucas Heitzmann Gabrielli
Host Institution: Faculdade de Engenharia Elétrica e de Computação (FEEC). Universidade Estadual de Campinas (UNICAMP). Campinas , SP, Brazil
Associated scholarship(s):19/01771-7 - Few-modes fiber coupler, BP.MS

Abstract

Optical communication channels evolve to supply the demand for ever increasing transmission rates in response to new entertainment technologies, services, and high performance computing. Together with conventional wavelength, division multiplexing and advanced modulation formats, the use of space (or mode) division multiplexing presents the next step in the capacity evolution path. Following the same tendency, nanophotonics presents mechanisms for modal multiplexing in the same platform of modulation, detection and signal processing, but it still does not offer efficient devices to couple multimode channels and integrated waveguides. This project proposes the development of nanophotonic couplers for communication channels supporting space division multiplexing and their demonstration in high bit rate systems, considering in particular multicore and few-mode fibers, and free-space beams with orbital angular momentum. (AU)

Articles published in Agência FAPESP Newsletter about the research grant:
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VEICULO: TITULO (DATA)
VEICULO: TITULO (DATA)

Scientific publications (9)
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
RAMIREZ, JHONATTAN C.; GABRIELLI, LUCAS H.; LECHUGA, LAURA M.; HERNANDEZ-FIGUEROA, HUGO E.. Trimodal Waveguide Demonstration and Its Implementation as a High Order Mode Interferometer for Sensing Application. SENSORS, v. 19, n. 12, . (15/24517-8, 16/19270-6)
PITA RUIZ, JULIAN L.; ALDAYA, IVAN; DAINESE, PAULO; GABRIELLI, LUCAS H.. Design of Compact Arbitrary-Ratio Multimode Power Splitters Based on Topological Derivative. IEEE PHOTONICS TECHNOLOGY LETTERS, v. 32, n. 18, p. 1187-1190, . (18/25339-4, 16/19270-6, 15/24517-8)
PITA RUIZ, JULIAN L.; ROCHA, LUCAS G.; YANG, JUN; KOCABAS, SUKRU EKIN; LI, MING-JUN; ALDAYA, IVAN; DAINESE, PAULO; GABRIELLI, LUCAS H.. fficient integrated tri-modal coupler for few-mode fiber. Optics Express, v. 30, n. 2, p. 2539-2546, . (15/24517-8, 16/19270-6, 18/25339-4)
PITA RUIZ, JULIAN L.; AMAD, ALAN A. S.; GABRIELLI, LUCAS H.; NOVOTNY, ANTONIO ANDRE. Optimization of the electromagnetic scattering problem based on the topological derivative method. Optics Express, v. 27, n. 23, p. 33586-33605, . (15/24517-8, 16/19270-6, 18/25339-4)
PITA RUIZ, JULIAN L.; ROCHA, LUCAS G.; YANG, JUN; KOCABAS, SUKRU EKIN; LI, MING-JUN; ALDAYA, IVAN; DAINESE, PAULO; GABRIELLI, LUCAS H.. Compact dual-polarization silicon integrated couplers for multicore fibers. OPTICS LETTERS, v. 46, n. 15, p. 3649-3652, . (16/19270-6, 15/24517-8, 13/20180-3)
ROCHA, LUCAS G.; RUIZ, JULIAN L. PITA; GABRIELLI, LUCAS H.; IEEE. Compact grating coupler array for multicore fiber fabricated with DUV lithography. 2021 SBFOTON INTERNATIONAL OPTICS AND PHOTONICS CONFERENCE (SBFOTON IOPC), v. N/A, p. 4-pg., . (19/01771-7, 16/19270-6, 18/25339-4, 15/24517-8)
RUIZ, JULIAN L. PITA; ROCHA, LUCAS G.; YANG, JUN; KOCABAS, SUKRU EKIN; LI, MING-JUN; ALDAYA, IVAN; MENARD, MICHAEL; DAINESE, PAULO; GABRIELLI, LUCAS H.. Ultracompact Silicon-On-Insulator Couplers for Multicore Fibers. ACS PHOTONICS, v. N/A, p. 6-pg., . (16/19270-6, 18/25339-4, 15/24517-8)
PITA, JULIAN L.; ALDAYA, IVAN; DAINESE, PAULO; HERNANDEZ-FIGUEROA, HUGO E.; GABRIELLI, LUCAS H.. Design of a compact CMOS-compatible photonic antenna by topological optimization. Optics Express, v. 26, n. 3, p. 2435-2442, . (08/57857-2, 13/20180-3, 15/24517-8, 16/19270-6, 15/04113-0)
MATTOSO, R.; GABRIELLI, L. H.; NOVOTNY, A. A.. Topology design optimization of nanophotonic devices for energy concentration. Applied Mathematical Modelling, v. 104, p. 14-pg., . (18/25339-4, 16/19270-6, 15/24517-8)