Your search keyword '"Zavargo-Peche, Luis"' showing total 8 results

1. An ultra-compact multimode interference coupler with a subwavelength grating slot

Author

Ortega-Moñux, Alejandro, Alonso-Ramos, Carlos, Maese-Novo, Alejandro, Halir, Robert, Zavargo-Peche, Luis, Pérez-Galacho, Diego, Molina-Fernández, Iñigo, Wangüemert-Pérez, J. Gonzalo, Cheben, Pavel, Schmid, Jens H., Lapointe, Jean, Xu, Danxia, and Janz, Siegfried

Subjects

practical realizations, integrated optics, silicon-wire, silicon-on-insulator substrates, light extinction, fabrication, fundamental building blocks, photonic integration technology, photonic integrated circuits, multimode interference couplers, subwavelength grating, silicon-on-insulators, photonic devices

Abstract

Multimode interference couplers (MMIs) are fundamental building blocks in photonic integrated circuits. Here it is experimentally demonstrated, for the first time, a two-fold length reduction in an MMI coupler without any penalty on device performance. The design is based on a slotted 2 × 2 MMI fabricated on a commercial silicon-on-insulator (SOI) substrate. The slot is implemented with a subwavelength grating (SWG) comprising holes fully etched down to the oxide cladding, thereby allowing single etch step fabrication. The device has been designed using an in-house tool based on the Fourier Eigenmode Expansion Method. It has a footprint of only 3.5 μm x 23 μm and it exhibits a measured extinction ratio better than 15 dB within the full C-band (1530 nm-1570 nm). SWG engineered slots thus offer excellent perspectives for the practical realization of MMIs couplers with substantially reduced footprint yet with outstanding performance. Multimode interference couplers (MMIs) are fundamental building blocks in photonic integrated circuits. Here it is experimentally demonstrated, for the first time, a two-fold length reduction in an MMI coupler without any penalty on device performance. The design is based on a slotted 2 × 2 MMI fabricated on a commercial silicon-on-insulator (SOI) substrate. The slot is implemented with a subwavelength grating (SWG) comprising holes fully etched down to the oxide cladding, thereby allowing single etch step fabrication. The device has been designed using an in-house tool based on the Fourier Eigenmode Expansion Method. It has a footprint of only 3.5 μm x 23 μm and it exhibits a measured extinction ratio better than 15 dB within the full C-band (1530 nm-1570 nm). SWG engineered slots thus offer excellent perspectives for the practical realization of MMIs couplers with substantially reduced footprint yet with outstanding performance. © 2013 by WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

Published

2013

2. SWG dispersion engineering for ultra-broadband photonic devices

Author

Halir, Robert, primary, Maese-Novo, Alejandro, additional, Romero-García, Sebastián, additional, Pérez-Galacho, Diego, additional, Zavargo-Peche, Luis, additional, Ortega-Moñux, Alejandro, additional, Molina-Fernández, Íñigo, additional, Wangüemert-Pérez, J. Gonzalo, additional, and Cheben, Pavel, additional

Published

2013

3. An ultra‐compact multimode interference coupler with a subwavelength grating slot

Author

Ortega‐Moñux, Alejandro, primary, Alonso‐Ramos, Carlos, additional, Maese‐Novo, Alejandro, additional, Halir, Robert, additional, Zavargo‐Peche, Luis, additional, Pérez‐Galacho, Diego, additional, Molina‐Fernández, Iñigo, additional, Wangüemert‐Pérez, J. Gonzalo, additional, Cheben, Pavel, additional, Schmid, Jens H., additional, Lapointe, Jean, additional, Xu, Danxia, additional, and Janz, Siegfried, additional

Published

2013

4. New concepts in silicon component design using subwavelength structures

Author

Molina-Fernandez, Iñigo, primary, Halir, Robert, additional, Ortega-Moñux, Alejandro, additional, Zavargo-Peche, Luis, additional, Romero García, Sebastian, additional, Maese-Novo, Alejandro, additional, Perez-Galacho, Diego, additional, Wanguemert-Perez, Gonzalo, additional, Cheben, Pavel, additional, and Xu, Dan-Xia, additional

Published

2012

5. FOURIER BASED COMBINED TECHNIQUES TO DESIGN NOVEL SUB-WAVELENGTH OPTICAL INTEGRATED DEVICES

Author

Zavargo-Peche, Luis, primary, Ortega-Monux, Alejandro, additional, Wanguemert-Perez, Juan Gonzalo, additional, and Molina-Fernandez, Inigo, additional

Published

2012

6. Efficient fibre-chip grating coupler for thick SOI rib waveguides

Author

Alonso-Ramos, Carlos A., primary, Ortega, Alejandro, additional, Zavargo-Peche, Luis, additional, Halir, Robert, additional, de-Oliva-Rubio, Jose, additional, Molina-Fernandez, Iñigo, additional, Cheben, Pavel, additional, Xu, Dan-Xia, additional, Janz, Siegfried, additional, and Kim, Naksup, additional

Published

2011

7. SWG dispersion engineering for ultra-broadband photonic devices

Author

Fédéli, Jean-Marc, Vivien, Laurent, Smit, Meint K., Halir, Robert, Maese-Novo, Alejandro, Romero-García, Sebastián, Pérez-Galacho, Diego, Zavargo-Peche, Luis, Ortega-Moñux, Alejandro, Molina-Fernández, Íñigo, Wangüemert-Pérez, J. Gonzalo, and Cheben, Pavel

Published

2013

8. New concepts in silicon component design using subwavelength structures

Author

Molina-Fernandez, Iñigo, Halir, Robert, Ortega-Moñux, Alejandro, Zavargo-Peche, Luis, Romero García, Sebastian, Maese-Novo, Alejandro, Perez-Galacho, Diego, Wanguemert-Perez, Gonzalo, Cheben, Pavel, and Xu, Dan-Xia

Abstract

Subwavelength gratings (SWG) are periodically segmented waveguides with a pitch small enough to suppress diffraction. These waveguides can be engineered to implement almost any refractive between the refractive indices of the material that compose the waveguide, thereby opening novel design possibilities. In this communication we explore the use of SWGs in the design and optimization of a variety of integrated optical devices in the silicon-on-insulator platform: fiber-to-chip grating couplers, polarization splitters and high performance multimode interference couplers. We furthermore show that the dispersion properties of SWGs enable the design of novel filters, and discuss the design of low transitions between SWG waveguides of different characteristics.

Published

2012