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154 results on '"Vachon, Martin"'

1. End-to-end simulations of photonic phase correctors for adaptive optics systems

Author

Patel, Dhwanil, Diab, Momen, Cheriton, Ross, Taylor, Jacob, Rojas, Libertad, Vachon, Martin, Xu, Dan-Xia, Schmid, Jens H., Cheben, Pavel, Janz, Siegfried, and Sivanandam, Suresh

Subjects
Physics - Optics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

Optical beams and starlight distorted by atmospheric turbulence can be corrected with adaptive optics systems to enable efficient coupling into single-mode fibers. Deformable mirrors, used to flatten the wavefront in astronomical telescopes, are costly, sensitive, and complex mechanical components that require careful calibration to enable high-quality imaging in astronomy, microscopy, and vision science. They are also impractical to deploy in large numbers for non-imaging applications like free-space optical communication. Here, we propose a photonic integrated c rcuit capable of spatially sampling the wavefront collected by the telescope and co-phasing the subapertures to maximize the flux delivered to an output single-mode fiber as the integrated photonic implementation of a deformable mirror. We present the results of end-to-end simulations to quantify the performance of the proposed photonic solution under varying atmospheric conditions toward realizing an adaptive optics system without a deformable mirror for free-space optical receivers., Comment: 14 pages, 8 figures, 1 table, to be published in Optics Express. Corresponding author: Momen Diab (momen.diab@utoronto.ca)

Published
2024
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2. Perfectly vertical silicon metamaterial grating couplers with large segmentation periods up to 650 nm

Author

Zhang, Jianhao, Melati, Daniele, Grinberg, Yuri, Vachon, Martin, Wang, Shurui, Al-Digeil, Muhammad, Janz, Siegfried, Schmid, Jens H., Cheben, Pavel, and Xu, Dan-Xia

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Perfectly vertical grating couplers leveraging metamaterials can achieve both high coupling efficiency and minimal back reflection. The fabricability of these designs, with segmentations in both the longitudinal and transverse dimensions, hinges on the minimum feature size offered by cutting-edge fabrication technologies. In this work we present both numerical and experimental evidence that high performance devices can be obtained while using large transverse segmentation periods of up to 650 nm, thereby increasing the critical feature sizes. For single-step etched couplers produced on the 220 nm silicon-on-insulator platform, we demonstrate coupling efficiencies of nearly 50% in the C-band and remarkably low back reflections of -22 dB at zero-degree incidence angle. Notably, the duty cycles used in our optimized designs deviate significantly from those predicted by traditional effective medium models, even for small periods. Our findings promise to expand the range of optical properties achievable in metamaterials and offer fresh insights into the fine-tuning of nanophotonic devices.

Published
2023

3. Optical wavefront phase-tilt measurement using Si-photonic waveguide grating couplers

Author

Janz, Siegfried, Xu, Dan-Xia, Grinberg, Yuri, Wang, Shurui, Vachon, Martin, Cheben, Pavel, Schmid, Jens H., and Melati, Daniele

Subjects
Physics - Optics
Abstract

Silicon photonic wavefront phase-tilt sensors for wavefront monitoring using surface coupling grating arrays are demonstrated. The first design employs the intrinsic angle dependence of the grating coupling efficiency to determine local wavefront tilt, with a measured sensitivity of 7 dB/degree. A second design connects four gratings in an interferometric waveguide circuit to determine incident wavefront phase variation across the sensor area. In this device, one fringe spacing corresponds to approximately 2 degree wavefront tilt change. These sensor elements can sample a wavefront incident on the chip surface without the use of bulk optic elements, fiber arrays, or imaging arrays. Both sensor elements are less than 60 um across, and can be combined into larger arrays to monitor wavefront tilt and distortion across an image or pupil plane in adaptive optics systems for free space optical communications, astronomy and beam pointing applications.

Published
2023

4. Measurement Accuracy in Silicon Photonic Ring Resonator Thermometers: Identifying and Mitigating Intrinsic Impairments

Author

Janz, Siegfried, Dedyulin, Sergey, Xu, D. -X., Vachon, Martin, Wang, Shurui, Cheriton, Ross, and Weber, John

Subjects
Physics - Optics, Physics - Instrumentation and Detectors
Abstract

Silicon photonic ring resonator thermometers have been shown to provide temperature measurements with a 10 mK accuracy. In this work we identify and quantify the intrinsic on-chip impairments that may limit further improvement in temperature measurement accuracy. The impairments arise from optically induced changes in the waveguide effective index, and from back-reflections and scattering at defects and interfaces inside the ring cavity and along the path between light source and detector. These impairments are characterized for 220 x 500 nm Si waveguide rings by experimental measurement in a calibrated temperature bath and by phenomenological models of ring response. At different optical power levels both positive and negative light induced resonance shifts are observed. For a ring with L = 100 um cavity length, the self-heating induced resonance red shift can alter the temperature reading by 200 mK at 1 mW incident power, while a small blue shift is observed below 100 uW. The effect of self-heating is shown to be effectively suppressed by choosing longer ring cavities. Scattering and back-reflections often produce split and distorted resonance line shapes. Although these distortions can vary with resonance order, they are almost completely invariant with temperature for a given resonance and do not lead to measurement errors in themselves. The effect of line shape distortions can largely be mitigated by tracking only selected resonance orders with negligible shape distortion, and by measuring the resonance minimum wavelength directly, rather than attempting to fit the entire resonance line shape. The results demonstrate the temperature error due to these impairments can be limited to below the 3 mK level through appropriate design choices and measurement procedures.

Published
2023

5. Athermal and tunable echelle grating wavelength demultiplexers using a Mach-Zehnder interferometer launch structure

Author

Melati, Daniele, Xu, Dan-Xia, Cheriton, Ross, Wang, Shurui, Vachon, Martin, Schmid, Jens H., Cheben, Pavel, and Janz, Siegfried

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

We present a comparative experimental study of three silicon photonic echelle grating demultiplexers that are integrated with a Mach-Zehnder interferometer (MZI) launch structure. By appropriate choice of the MZI configuration, the temperature induced shift of the demultiplexer channel wavelengths can be suppressed (athermal) or enhanced (super-thermal), or be controlled by an on-chip micro-heater. The latter two configurations allow the channel wavelengths to be actively tuned using lower power than possible by temperature tuning a conventional echelle demultiplexer. In the athermal configuration, the measured channel spectral shift is reduced to less than 10 pm/C, compared to the 83 pm/C shift for an unmodified echelle device. In super-thermal operation an enhanced channel temperature tuning rate of 170 pm/C is achieved. Finally, by modulating the MZI phase with an on-chip heater, the demultiplexer channels can be actively tuned to correct for ambient temperature fluctuations up to 20 C, using a drive current of less than 20 mA., Comment: 16 pages, 8 figures

Published
2022
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6. Photonic Temperature and Wavelength Metrology by Spectral Pattern Recognition

Author

Janz, Siegfried, Cheriton, Ross, Xu, Dan-Xia, Densmore, Aadam, Dedyulin, Sergey, Todd, Andrew, Schmid, Jens, Cheben, Pavel, Vachon, Martin, Dezfouli, Mohsen Kamandar, and Melati, Daniele

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Spectral pattern recognition is used to measure temperature and generate calibrated wavelength/frequency combs using a single silicon waveguide ring resonator. The ring generates two incommensurate interleaving TE and TM spectral combs that shift independently with temperature to create a spectral pattern that is unique at every temperature. Following an initial calibration, the ring temperature can be determined by recognizing the spectral resonance pattern, and as a consequence the wavelength of every resonance is also known. Two methods of pattern based temperature retrieval are presented. In the first method, the ring is locked to a previously determined temperature set-point defined by the coincidence of only two specific TE and TM cavity modes. Based on a prior calibration at the set-point, the ring temperature and hence all resonance wavelengths are then known and the resulting comb can be used as a wavelength calibration reference. In this configuration, all reference comb wavelengths have been reproduced within a 5 pm accuracy across an 80 nm range by using an on-chip micro-heater to tune the ring. For more general photonic thermometry, a spectral correlation algorithm is developed to recognize a resonance pattern across a 30 nm wide spectral window and thereby determine ring temperature continuously to 50 mK accuracy. The correlation method is extended to simultaneously determine temperature and to identify and correct for wavelength calibration errors in the interrogating light source. The temperature and comb wavelength accuracy is limited primarily by the linewidth of the ring resonances, with accuracy and resolution scaling with the ring quality factor., Comment: 15 pages, 11 figures

Published
2020
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7. Isolator-free Integration of C-band InAs-InP Quantum Dash Buried Heterostructure Lasers with Silicon Waveguides

Author

Schmid, Jens H., Rahim, Mohamed, Pakulski, Grzegorz, Vachon, Martin, Janz, Siegfried, Cheben, Pavel, Xu, Dan-Xia, Poole, Philip J., Barrios, Pedro, Jiang, Weihong, Lapointe, Jean, and Melati, Daniele

Subjects
Physics - Applied Physics, Physics - Optics
Abstract

An InAs-on-InP quantum dash buried heterostructure laser and silicon chip optimized for mutual integration by direct facet-to-facet coupling have achieved -1.2 dB coupling efficiency, with coupled laser RIN of -150 dB/Hz and 152 kHz linewidth.

Published
2020

9. Quantum-Dash Semiconductor Optical Amplifier for Millimeter-Wave over Fibre Wireless Fronthaul Systems.

Author

Xie, Xiaoran, Mao, Youxin, Song, Chunying, Lu, Zhenguo, Poole, Philip J., Liu, Jiaren, Toreja, Mia, Qi, Yang, Liu, Guocheng, Poitras, Daniel, Ma, Penghui, Barrios, Pedro, Weber, John, Zhao, Ping, Vachon, Martin, Rahim, Mohamed, Chen, Xianling, Atieh, Ahmad, Zhang, Xiupu, and Yao, Jianping

Subjects
SEMICONDUCTOR optical amplifiers, MILLIMETER wave devices, QUANTUM dots, 5G networks, BANDWIDTHS, MICROWAVE filters
Abstract

This paper demonstrates a five-layer InAs/InP quantum-dash semiconductor optical amplifier (QDash-SOA), which will be integrated into microwave-photonic on-chip devices for millimeter-wave (mmWave) over fibre wireless networking systems. A thorough investigation of the QDash-SOA is conducted regarding its communication performance at different temperatures, bias currents, and input powers. The investigation shows a fibre-to-fibre (FtF) small-signal gain of 18.79 dB and a noise figure of 6.3 dB. In a common application with a 300 mA bias current and 25 °C temperature, the peak FtF gain is located at 1507.8 nm, which is 17.68 dB, with 3 dB gain bandwidth of 56.6 nm. Furthermore, the QDash-SOA is verified in a mmWave radio-over-fibre link with QAM (32 Gb/s 64-QAM 4-GBaud) and OFDM (250 MHz 64-QAM) signals. The average error vector magnitude of the QAM and OFDM signals after a 2 m wireless link could be as low as 8.29% and 6.78%, respectively. These findings highlight the QDash-SOA's potential as a key amplifying component in future integrated microwave-photonic on-chip devices. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Experimental investigation of silicon optical antennas

Author

Khajavi, Shahrzad, primary, Vachon, Martin, additional, Zhang, Jianhao, additional, Melati, Daniele, additional, Cheben, Pavel, additional, Schmid, Jens H., additional, Ramos, Carlos A. Alonso, additional, Atieh, Ahmad, additional, and Ye, Winnie N., additional

Published
2024
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13. Recent advances in integrated photonics with subwavelength and resonant metamaterials

Author

Schmid, Jens H., primary, Cheben, Pavel, additional, Zhang, Jianhao, additional, Milanizadeh, Maziyar, additional, Bin-Alam, Saad, additional, Xu, Dan-Xia, additional, Cheriton, Ross, additional, Vachon, Martin, additional, Wang, Shurui, additional, Ma, Rubin, additional, Fraser, William, additional, Khajavi, Shahrzad, additional, Ye, Winnie N., additional, Ginel Moreno, Pablo, additional, Luque-González, Jose-Manuel, additional, Fernández Hinestrosa, Alejandro, additional, Sánchez-Postigo, Alejandro, additional, Halir, Robert, additional, Wangüemert-Pérez, J. Gonzalo, additional, Ortega-Moñux, Alejandro, additional, Molina-Fernández, Íñigo, additional, Mokkedem, Zindine, additional, Melati, Daniele, additional, Alonso-Ramos, Carlos, additional, Vivien, Laurent, additional, Korcek, Radovan, additional, Benedikovic, Daniel, additional, Naraine, Cameron, additional, Bradley, Jonathan, additional, Sirmaci, Yunus D., additional, and Staude, Isabelle, additional

Published
2024
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14. Quantum dot coherent comb lasers for B5G/6G mobile and terrestrial communication systems

Author

Lu, Zhenguo, primary, Liu, Guocheng, additional, Liu, Jiaren, additional, Poole, Philip, additional, Mao, Youxin, additional, Zeb, Khan, additional, Xie, Xiaoran, additional, Rahim, Mohamed, additional, Vachon, Martin, additional, Song, Chunying, additional, Qi, Yang, additional, Weber, John, additional, Barrios, Pedro, additional, Poitras, Daniel, additional, Sabourin, Nicaulas, additional, Chen, Silas, additional, Zhao, Ping, additional, Huang, Long, additional, Askarian, Amirhossein, additional, Zhang, John Xiupu, additional, Yao, Jianping, additional, and Wu, Ke, additional

Published
2024
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15. Performance Investigations of InAs/InP Quantum-Dash Semiconductor Optical Amplifiers with Different Numbers of Dash Layers

Author

Mao, Youxin, primary, Xie, Xiaoran, additional, Song, Chunying, additional, Lu, Zhenguo, additional, Poole, Philip J., additional, Liu, Jiaren, additional, Toreja, Mia, additional, Qi, Yang, additional, Liu, Guocheng, additional, Barrios, Pedro, additional, Poitras, Daniel, additional, Weber, John, additional, Zhao, Ping, additional, Vachon, Martin, additional, Rahim, Mohamed, additional, Ma, Penghui, additional, Chen, Silas, additional, and Atieh, Ahmad, additional

Published
2023
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21. Optical fiber interferometer array for scanless Fourier-transform spectroscopy

Author

Villafranca Velasco, Aitor, Cheben, Pavel, Florjańczyk, Mirosław, Schmid, Jens H., Bock, Przemek J., Lapointe, Jean, Delâge, André, Janz, Siegfried, Vachon, Martin, Calvo Padilla, María Luisa, Xu, Dan-Xia, Civiš, Svatopluk, Villafranca Velasco, Aitor, Cheben, Pavel, Florjańczyk, Mirosław, Schmid, Jens H., Bock, Przemek J., Lapointe, Jean, Delâge, André, Janz, Siegfried, Vachon, Martin, Calvo Padilla, María Luisa, Xu, Dan-Xia, and Civiš, Svatopluk

Abstract

© 2013 Optical Society of America. Financial support from the National Research Council of Canada and Spanish Ministry of Economy (TEC2008-04105 and TEC2011-23629) is acknowledged., We report a spatial heterodyne Fourier-transform spectrometer implemented with an array of optical fiber interferometers. This configuration generates a wavelength-dependent stationary interferogram from which the input spectrum is retrieved in a single shot without scanning elements. Furthermore, fabrication and experimental deviations from the ideal behavior of the device are corrected by spectral inversion algorithms. The spectral resolution of our system can be readily scaled up by incorporating longer optical fiber delays, providing a pathway toward surpassing current spectroscopy resolution limits., National Research Council, Canada, Ministerio de Economía, España, Depto. de Óptica, Fac. de Ciencias Físicas, TRUE, pub

Published
2023

22. Ultracompact polarization converter with a dual subwavelength trench built in a silicon-on-insulator waveguide

Author

Villafranca Velasco, Aitor, Calvo Padilla, María Luisa, Cheben, Pavel, Ortega Moñux, Alejandro, Alonso Ramos, Carlos Alberto, Molina fernández, Íñigo, Lapointe, Jean, Vachon, Martin, Janz, Siegfried, Xu, Dan-Xia, Villafranca Velasco, Aitor, Calvo Padilla, María Luisa, Cheben, Pavel, Ortega Moñux, Alejandro, Alonso Ramos, Carlos Alberto, Molina fernández, Íñigo, Lapointe, Jean, Vachon, Martin, Janz, Siegfried, and Xu, Dan-Xia

Abstract

© 2012 Optical Society of America. Financial support from the Spanish Ministry of Science and Innovation (MICINN) is acknowledged under grants TEC2008-04105 and TEC2009-10152., The design and fabrication of an ultracompact silicon-on-insulator polarization converter is reported. The polarization conversion with an extinction ratio of 16 dB is achieved for a conversion length of only 10 mu m. Polarization rotation is achieved by inducing a vertical asymmetry by forming in the waveguide core two subwavelength trenches of different depths. By taking advantage of the calibrated reactive ion etch lag, the two depths are implemented using a single mask and etching process. The measured converter loss is -0.7 dB and the 3 dB bandwidth is 26 nm., Ministerio de Ciencia e Innovación (MICINN), España, Depto. de Óptica, Fac. de Ciencias Físicas, TRUE, pub

Published
2023

23. High-resolution Fourier-transform spectrometer chip with microphotonic silicon spiral waveguides

Author

Villafranca Velasco, Aitor, Cheben, Pavel, Bock, Przemek J., Schmid, Jens H., Delâge, André, Lapointe, Jean, Janz, Siegfried, Calvo Padilla, María Luisa, Xu, Dan-Xia, Florjańczyk, Mirosław, Vachon, Martin, Villafranca Velasco, Aitor, Cheben, Pavel, Bock, Przemek J., Schmid, Jens H., Delâge, André, Lapointe, Jean, Janz, Siegfried, Calvo Padilla, María Luisa, Xu, Dan-Xia, Florjańczyk, Mirosław, and Vachon, Martin

Abstract

© 2013 Optical Society of America. Financial support from the Spanish Ministry of Economy is acknowledged under grants TEC2008-04105 and TEC2011-23629., We report a stationary Fourier-transform spectrometer chip implemented in silicon microphotonic waveguides. The device comprises an array of 32 Mach-Zehnder interferometers (MZIs) with linearly increasing optical path delays between the MZI arms across the array. The optical delays are achieved by using Si-wire waveguides arranged in tightly coiled spirals with a compact device footprint of 12 mm(2). Spectral retrieval is demonstrated in a single measurement of the stationary spatial interferogram formed at the output waveguides of the array, with a wavelength resolution of 40 pm within a free spectral range of 0.75 nm. The phase and amplitude errors arising from fabrication imperfections are compensated using a transformation matrix spectral retrieval algorithm., Ministerio de Economía, España, Depto. de Óptica, Fac. de Ciencias Físicas, TRUE, pub

Published
2023

24. Building high-performance integrated optical devices using subwavelength grating metamaterials -INVITED

Author

Sánchez-Postigo Alejandro, Ginel-Moreno Pablo, Ortega-Moñux Alejandro, Wangüemert-Pérez J. Gonzalo, Halir Robert, Pereira-Martín Daniel, Hadij-ElHouati Abdelfettah, Schmid Jens H., Wang Shurui, Vachon Martin, Xu Dan-Xia, Ye Winnie N., Soler Penadés Jordi, Nedeljkovic Milos, Mashanovich Goran Z., Cheben Pavel, and Molina-Fernández Íñigo

Subjects
Physics, QC1-999
Abstract

The use of subwavelength grating structures in silicon waveguides have fuelled the development of integrated optical components with superior performance. By a judicious lithographic patterning of the grating, the optical properties of the synthesized metamaterial can be accurately tailored. In this work, we review our latest advances in subwavelength-grating-engineered silicon and germanium planar devices.

Published
2021
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25. Monolithic InAs/InP Quantum Dash Mode-Locked Lasers for Millimeter-Wave-Over-Fiber Mobile Fronthaul Systems

Author

Liu, Guocheng, primary, Lu, Zhenguo, additional, Liu, Jiaren, additional, Poole, Philip J., additional, Mao, Youxin, additional, Zeb, Khan, additional, Xie, Xiaoran, additional, Vachon, Martin, additional, Barrios, Pedro, additional, Song, Chun-ying, additional, Sabourin, Nicaulas, additional, Weber, John, additional, Zhang, Xiupu, additional, Wu, Ke, additional, and Yao, Jianping, additional

Published
2023
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27. Broadband Optical Heterodyne Millimeter-Wave-over-Fiber Wireless Links Based on a Quantum Dash Dual-Wavelength DFB Laser

Author

Zeb, Khan, primary, Lu, Zhenguo, additional, Liu, Jiaren, additional, Mao, Youxin, additional, Liu, Guocheng, additional, Poole, Philip J., additional, Rahim, Mohamed, additional, Pakulski, Grzegorz, additional, Barrios, Pedro, additional, Vachon, Martin, additional, Poitras, Daniel, additional, Jiang, Weihong, additional, Weber, John, additional, Zhang, Xiupu, additional, and Yao, Jianping, additional

Published
2022
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33. Building high-performance integrated optical devices using subwavelength grating metamaterials

Author

Sánchez-Postigo, Alejandro, Ginel-Moreno, Pablo, Ortega-Moñux, Alejandro, Wanguemert-Perez, Juan Gonzalo, Halir, Robert, Pereira-Martín, Daniel, Hadij-ElHouati, Abdelfettah, Schmid, Jens H., Wang, Shurui, Vachon, Martin, Xu, Dan-Xia, Ye, Winnie N., Soler-Penadés, Jordi, Nedeljkovic, Milos, Mashanovich, Goran Z., Cheben, Pavel, and Molina-Fernandez, Iñigo

Subjects
Fibras ópticas, Silicio
Abstract

Ministerio de Ciencia, Innovación y Universidades (MCIU) (PID2019-106747RB-I00), Consejería de Economía, Conocimiento, Empresas y Universidad (CECEU) (UMA18-FEDERJA-219, P18-RT-1453, P18-RT-793) and National Research Council of Canada (NRC) Collaborative Science, Technology and Innovation Program (CSTIP) (HTSN 209). The use of subwavelength grating structures in silicon waveguides have fuelled the development of integrated optical components with superior performance. By a judicious lithographic pattern of the grating, the optical properties of the synthesized metamaterial can be accurately tailored. In this work, we review our latest advances in subwavelength-grating-engineered silicon and germanium planar devices. Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech.

Published
2021

34. Quantum-Dot Multi-Wavelength Lasers for Millimeter Wave Generation and Transmission

Author

Lu, Zhenguo, primary, Liu, Jiaren, additional, Mao, Youxin, additional, Liu, Guocheng, additional, Poole, Philip J., additional, Barrios, Pedro, additional, Rahim, Mohamed, additional, Pakulski, Grzegorz, additional, Jiang, Weihong, additional, Poitras, Daniel, additional, Song, Chunying, additional, Vachon, Martin, additional, Weber, John, additional, Wang, Shurui, additional, Zhao, Ping, additional, Storey, Craig, additional, Zeb, Khan, additional, Zhang, Xiupu, additional, Yao, Jianping, additional, and Wu, Ke, additional

Published
2021
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36. Photonic Wireless Links for 5G Broadband Access Networks

Author

Zeb, Khan, primary, Lu, Zhenguo, additional, Liu, Jiaren, additional, Mao, Youxin, additional, Rahim, Mohamed, additional, Poole, Philip J., additional, Barrios, Pedro, additional, Liu, Guocheng, additional, Pakulski, Grzegorz, additional, Jiang, Weihong, additional, Vachon, Martin, additional, and Zhang, Xiupu, additional

Published
2021
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37. Breaking the Coupling Efficiency–Bandwidth Trade‐Off in Surface Grating Couplers Using Zero‐Order Radiation

Author

Sánchez‐Postigo, Alejandro, primary, Halir, Robert, additional, Wangüemert‐Pérez, J. Gonzalo, additional, Ortega‐Moñux, Alejandro, additional, Wang, Shurui, additional, Vachon, Martin, additional, Schmid, Jens H., additional, Xu, Dan‐Xia, additional, Cheben, Pavel, additional, and Molina‐Fernández, Íñigo, additional

Published
2021
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39. Subwavelength-grating metamaterial integrated devices for the near- and mid-infrared wavelengths

Author

Sánchez Postigo, Alejandro, primary, Wangüemert-Pérez, J. Gonzalo, additional, Ortega-Moñux, Alejandro, additional, Halir, Robert, additional, Pereira-Martín, Daniel, additional, Luque-González, José Manuel, additional, Schmid, Jens H., additional, Wang, Shurui, additional, Vachon, Martin, additional, Xu, Dan-Xia, additional, Soler Penadés, Jordi, additional, Nedeljkovic, Milos, additional, Mashanovich, Goran Z., additional, Cheben, Pavel, additional, and Molina-Fernández, Íñigo, additional

Published
2021
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40. A Quantum-Dash Dual-Wavelength DFB Laser for Optical Millimeter-Wave Radio-over-Fiber Systems

Author

Zeb, Khan, primary, Lu, Zhenguo, additional, Liu, Jiaren, additional, Mao, Youxin, additional, Rahim, Mohamed, additional, Poole, Philip J, additional, Barrios, Pedro, additional, Liu, Guocheng, additional, Pakulski, Grzegorz, additional, Jiang, Weihong, additional, Vachon, Martin, additional, Poitras, Daniel, additional, and Zhang, Xiupu, additional

Published
2021
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42. Silicon Photonic Waveguide Structures and Devices: From Fundamentals to Implementations in Spectroscopy and Biological Sensing

Author

Cheben, Pavel, primary, Densmore, Adam, additional, Schmid, Jens H., additional, Xu, Dan-Xia, additional, Delâge, André, additional, Florjaňczyk, Miroslaw, additional, Janz, Siegfried, additional, Lamontagne, Boris, additional, Lapointe, Jean, additional, Post, Edith, additional, Vachon, Martin, additional, and Waldron, Philip, additional

Published
2010
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43. Isolator-Free Integration of C-Band InAs-InP Quantum Dash Buried Heterostructure Lasers with Silicon Waveguides

Author

Schmid, Jens H., primary, Rahim, Mohamed, additional, Pakulski, Grzegorz, additional, Vachon, Martin, additional, Janz, Siegfried, additional, Cheben, Pavel, additional, Xu, Dan-Xia, additional, Poole, Philip J., additional, Barrios, Pedro, additional, Jiang, Weihong, additional, Lapointe, Jean, additional, and Melati, Daniele, additional

Published
2020
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47. Smart on-chip Fourier-transform spectrometers harnessing machine learning algorithms (Conference Presentation)

Author

Herrero-Bermello, Alaine, primary, Li, Jiangfeng, additional, Khazaei, Mohammad, additional, Grinberg, Yuri, additional, Villafranca-Velasco, Aitor, additional, Vachon, Martin, additional, Cheben, Pavel, additional, Stankovic, Lina, additional, Stankovic, Vladimir, additional, Xu, Dan-Xia, additional, Schmid, Jens H., additional, and Alonso-Ramos, Carlos A., additional

Published
2020
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50. On-chip Fourier-transform spectrometers and machine learning: a new route to smart photonic sensors

Author

Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Comunidad de Madrid, European Commission, Agence Nationale de la Recherche (France), Herrero-Bermello, A. [0000-0001-7842-5007], Cheben, Pavel [0000-0003-4232-9130], Xu, Dan-Xia [0000-0002-0490-5224], Herrero-Bermello, A., Li, Jiangfeng, Khazaei, Mohammad, Grinberg, Yuri, Velasco, Aitor V., Vachon, Martin, Cheben, Pavel, Stankovic, Lina, Stankovic,Vladimir, Xu, Dan-Xia, Schmid, Jens H., Alonso-Ramosa, Carlos, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Comunidad de Madrid, European Commission, Agence Nationale de la Recherche (France), Herrero-Bermello, A. [0000-0001-7842-5007], Cheben, Pavel [0000-0003-4232-9130], Xu, Dan-Xia [0000-0002-0490-5224], Herrero-Bermello, A., Li, Jiangfeng, Khazaei, Mohammad, Grinberg, Yuri, Velasco, Aitor V., Vachon, Martin, Cheben, Pavel, Stankovic, Lina, Stankovic,Vladimir, Xu, Dan-Xia, Schmid, Jens H., and Alonso-Ramosa, Carlos

Abstract

Miniaturized silicon photonics spectrometers capable of detecting specific absorption features have great potential for mass market applications in medicine, environmental monitoring, and hazard detection.However, state-of-the-art silicon spectrometers are limited by fabrication imperfections and environmental conditions, especially temperature variations, since uncontrolled temperature drifts of only 0.1 C distort the retrieved spectrum precluding the detection and classification of the absorption features. Here we present a new strategy that exploits the robustness of machine learning algorithms to signal imperfections, enabling recognition of specific absorption features in a wide range of environmental conditions. We combine onchip spatial heterodyne Fourier-transform spectrometers and supervised learning to classify different input spectra in the presence of fabrication errors, without temperature stabilization or monitoring. We experimentally show the differentiation of four different input spectra under an uncontrolled 10 C range of temperatures, about 100 increase in operational range, with a success rate up to 82.5% using state-of-the-art support vector machines and artificial neural networks.

Published
2019

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