Chrostowski, L. & Hochberg, M. Silicon Photonics Design (Cambridge University Press, 2015).
Lin, Y. et al. Characterization of hybrid InP-TriPleX photonic integrated tunable lasers based on silicon nitride (Si 3N4/SiO2) microring resonators for optical coherent system. IEEE Photonics J. 10, 1400108 (2018).
Bogaerts, W. et al. Proc. Integrated Design for Integrated Photonics: from the Physical to the Circuit Level and Back (SPIE Optics and Optoelectronics, Prague, Czech Republic, 2013).
[+]
Chrostowski, L. & Hochberg, M. Silicon Photonics Design (Cambridge University Press, 2015).
Lin, Y. et al. Characterization of hybrid InP-TriPleX photonic integrated tunable lasers based on silicon nitride (Si 3N4/SiO2) microring resonators for optical coherent system. IEEE Photonics J. 10, 1400108 (2018).
Bogaerts, W. et al. Proc. Integrated Design for Integrated Photonics: from the Physical to the Circuit Level and Back (SPIE Optics and Optoelectronics, Prague, Czech Republic, 2013).
Inniss, D. & Rubenstein, R. Silicon Photonics: Fueling the Next Information Revolution (Elsevier Science, 2016).
Streshinsky, M. et al. The road to affordable, large-scale silicon photonics. Opt. Photonics News 24, 32–39, (2013).
Carrol, L. et al. Photonic packaging: transforming silicon photonic integrated circuits into photonic devices. Appl. Sci. 6, 426 (2016).
Capmany, J. & Pérez, D. Programmable Integrated Photonics (Oxford University Press, 2019).
Lyke, J. et al. An introduction to reconfigurable systems. Proc. IEEE 103, 291–317 (2015).
Capmany, J., Gasulla, I. & Pérez, D. The programmable processor. Nat. Photonics 10, 6–8 (2015).
Carolan, J. et al. Universal linear optics. Science 349, 711 (2015).
Ribeiro, A. et al. Demonstration of a 4×4-port universal linear circuit. Optica 3, 1348–1357 (2016).
Annoni, A. Unscrambling light—automatically undoing strong mixing between modes. Light Sci. Appl. 6, e17110 (2017).
Shen, Y. et al. Deep learning with coherent nanophotonic circuits. Nat. Photonics 11, 441–446 (2017).
Mennea, P. L. et al. Modular linear optical circuits. Optica 5, 1087–1090 (2018).
Zheng, D. et al. Low-loss broadband 5×5 non-blocking Si3N4 optical switch matrix. Opt. Lett. 44, 2629–2632 (2019).
Zhuang, L. et al. Programmable photonic signal processor chip for radiofrequency applications. Optica 2, 854–859 (2015).
Pérez, D. et al. Multipurpose silicon photonics signal processor core. Nat. Commun. 8, 636 (2017).
Zhang, W. & Yao, J. Photonic integrated field-programmable disk array signal processor. Nat. Commun. 11, 406 (2020).
Eberhart, J. K. R. A new optimizer using particle swarm theory. In MHS'95. Proceedings of the Sixth International Symposium on Micro Machine and Human Science (IEEE, Nagoya, Japan, 1995).
Whitley, D. A genetic algorithm tutorial. Stat. Comput. 4, 65–85 (1994).
Zibar, D., Wymeersch, H. & Lyubomirsky, I. Machine Learning under the spotlight. Nat. Photonics 11, 749–751 (2017).
Pérez, D. Programmable integrated silicon photonics waveguide meshes: optimized designs and control algorithms. In IEEE Journal of Selected Topics in Quantum Electronics, Vol. 26 (IEEE, 2019).
Pérez, D., Gasulla, I. & Capmany, J. Field-programmable photonic arrays. Opt. Express 26, 27265–27278 (2018).
Pérez, D., Gasulla, I., Soref, R. & Capmany, J. Reconfigurable lattice mesh designs for programmable photonic processors. Opt. Express 24, 12093–12106 (2016).
Pérez-López, D., Sánchez, E. & Capmany, Y. J. Programmable true time delay lines using integrated waveguide meshes. J. Lightwave Technol. 36, 4591–4601 (2018).
López, A. et al. Auto-routing algorithm for field-programmable photonic gate arrays. Opt. Express 28, 737–752 (2020).
Chen, X. & Boggaerts, W. A graph-based design and programming strategy for reconfigurable photonic circuits. In IEEE Photonics Society Summer Topical Meeting Series (SUM) (IEEE, Fort Lauderdale, FL, USA, 2019).
Pérez, D., López, A., DasMahapatra, P. & Capmany, J. Field-Programmable Photonic Array for multipurpose microwave photonic applications. In IEEE International Topical Meeting on Microwave Photonics (MWP) (IEEE, Ottawa, Canada, 2019).
Pérez, D. & Capmany, J. Scalable analysis for arbitrary photonic integrated waveguide meshes. Optica 6, 19–27 (2019).
Yegnanarayanan, S. et al. Automated initialization of reconfigurable silicon-nitride (SiNx) filters. In Conference on Lasers and Electro-Optics (IEEE, San José, CA, 2018).
Milanizadeh, M. et al. Cancelling thermal cross-talk effects in photonic integrated circuits. J. Light. Tech. 37, 1325–1332 (2019).
Xie, Y., Zhuang, L. & Lowery, A. J. Picosecond optical pulse processing using a terahertz-bandwidth reconfigurable photonic integrated circuit. Nanophotonics 7, 837–852 (2018).
Guan, B. et al. CMOS compatible reconfigurable silicon photonic lattice filters using cascaded unit cells for RF-photonic processing. IEEE J. Sel. Top. Quantum Electron. 20, 359–368 (2014).
Doylend, J. K. et al. Hybrid III/V silicon photonic source with integrated 1D free-space beam steering. Opt. Lett. 37, 4257–4259 (2012).
Burla, M. Advanced integrated optical beam forming networks for broadband phased array antenna systems, Telecommunication Engineering Faculty of Electrical Engineering, Mathematics and Computer Science. PhD. Thesis, University of Twente (2013).
Wang, J. et al. Reconfigurable radio-frequency arbitrary waveforms synthesized in a silicon photonic chip, Nat. Commun. 6, 5957 (2015).
Dumais, P. et al. Silicon photonic switch subsystem with 900 monolithically integrated calibration photodiodes and 64-fiber package. J. Lightwave Technol. 36, 233–238 (2018).
Tanizawa, K. et al. 32×32 strictly non-blocking Si-wire optical switch on ultra-small die of 11×25 mm2. In Optical Fiber Communications Conference (IEEE, Los Angeles, CA, USA, 2015).
Miller, D. A. B. Perfect optics with imperfect components. Optica 2, 747–750 (2015).
Gazman, A. et al. Tapless and topology agnostic calibration solution for silicon photonic switches. Opt. Express 26, 347241 (2018).
Cheng, Q. et al. First demonstration of automated control and assessment of a dynamically reconfigured monolithic 8 × 8 wavelength-and-space switch. IEEE J. Opt. Commun. Netw. 7, 388–395 (2015).
Tait, A. N. et al. Continuous calibration of microring weights for analog optical networks. IEEE Photonics Technol. Lett. 28, 887–890 (2016).
Carolan, J. et al. Scalable feedback control of single photon sources for photonic quantum technologies. Optica 6, 335–341 (2019).
Tait, A. N. et al. Multi-channel control for microring weightbanks. Opt. Express 24, 8895 (2016).
Jiang, H. et al. Chip-based arbitrary radio-frequency photonic filter with algorithm-driven reconfigurable resolution. Opt. Lett. 43, 415–418 (2018).
Jayatilleka, H. Automatic configuration and wavelength locking of coupled silicon ring resonators. J. Lightwave Technol. 36, 210–218 (2018).
Choo, G. Automatic monitor-based tuning of reconfigurable silicon photonic APF-based pole/zero filters. J. Lightwave Technol. 36, 1899–1911 (2018).
Choo, G. Automatic monitor-based tuning of an RF silicon photonic 1X4 asymmetric binary tree true-time-delay beamforming network. J. Lightwave Technol. 36, 5263–5275 (2018).
Bin Mohd Zain, M. Z. et al. A multi-objective particle swarm optimization algorithm based on dynamic boundary search for constrained optimization. Appl. Soft Comput. 70, 680–700 (2018).
Pérez, D. et al. Thermal tuners on a silicon nitride platform. Preprint at https://arxiv.org/abs/1604.02958 (2016).
[-]