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来源机构: Optics Express
来源目录: Optics Express
发布日期: Mar 18, 2019
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Broadly tunable wideband optical single sideband generation using self-coupled silicon resonator

References. View by:. Article Order. Year. Author. Publication. D. Novak, R. B. Waterhouse, A. Nirmalathas, C. Lim, P. A. Gamage, T. R. Clark, M. L. Dennis, and J. A. Nanzer, “Radio-over-fiber technologies for emerging wireless systems,” IEEE J. Quantum Electron. 52(1), 1–11 (2016). [Crossref] . Y. Tian, K.-L. Lee, C. Lim, and A. Nirmalathas, “60 GHz Analog Radio-Over-Fiber Fronthaul Investigations,” J. Lightwave Technol. 35(19), 4304–4310 (2017). [Crossref] . M. Pagani, B. Morrison, Y. Zhang, A. Casas-Bedoya, T. Aalto, M. Harjanne, M. Kapulainen, B. J. Eggleton, and D. Marpaung, “Low-error and broadband microwave frequency measurement in a silicon chip,” Optica 2(8), 751–756 (2015). [Crossref] . J. Zhang, O. L. Coutinho, and J. Yao, “A photonic approach to linearly chirped microwave waveform generation with an extended temporal duration,” IEEE Trans. Microw. Theory Tech. 64(6), 1947–1953 (2016). [Crossref] . J. S. Fandino, P. Munoz, D. Domenech, and J. Capmany, “A monolithic integrated photonic microwave filter,” Nat. Photonics 11(2), 124–129 (2017). [Crossref] . J. Hervas, A.L. Ricchiuti, W. Li, N.H. Zhu, C.R. Fernandez-Pousa, S. Sales, M. Li, and J. Capmany, “Microwave photonics for optical sensors,” IEEE J. Sel. Top. Quantum Electron.,  23(2), 327–339 (2017). [Crossref] . J.C. Bellido, J. Hervas, J. Madrigal, H. Maestre, G. Torregrosa, C.R. Fernandez-Pousa, and S. Sales, “Fast Incoherent OFDR Interrogation of FBG Arrays Using Sparse Radio-Frequency Responses,” J. Lightwave Technol. (2018) (in press). . D. Wake, A. Nkansah, and N.J. Gomes, “Radio over fiber link design for next generation wireless systems,” J. of Lightwave Technol. 28(16), 2456–2464 (2010). [Crossref] . L. Breyne, G. Torfs, X. Yin, P. Demeester, and J. Bauwelinck, “Comparison Between Analog Radio-Over-Fiber and Sigma Delta Modulated Radio-Over-Fiber,” IEEE Photon. Technol. Lett. 29(21), 1808–1811 (2017). [Crossref] . T. Qing, S. Li, M. Xue, W. Li, N. Zhu, and S. Pan, “Optical vector analysis based on asymmetrical optical double-sideband modulation using a dual-drive dual-parallel Mach–Zehnder modulator,” Opt. express 25(5), 4665–4671 (2017). [Crossref] [PubMed] . U. Gliese, S. Norskov, and T. N. Nielsen, “Chromatic dispersion in fiber-optic microwave and millimeter-wave links,” IEEE Trans. Microw. Theory Tech. 44(10), 1716–1724 (1996). [Crossref] . Y. Cui, K. Xu, J. Dai, X. Sun, Y. Dai, Y. Ji, and J. Lin, “Overcoming chromatic-dispersion-induced power fading in ROF links employing parallel modulators,” IEEE Photon. Technol. Lett. 24(14), 1173–1175 (2012). [Crossref] . K. Yonenaga and N. Takachio, “A fiber chromatic dispersion compensation technique with an optical SSB transmission in optical homodyne detection systems,” IEEE Photon. Technol. Lett. 5(8), 949–951 (1993). [Crossref] . G. H. Smith, D. Novak, and Z. Ahmed, “Technique for optical SSB generation to overcome dispersion penalties in fibre-radio systems,” Electron. Lett. 33(1), 74–75 (1997). [Crossref] . J. Ma, J. Yu, C. Yu, X. Xin, J. Zeng, and L. Chen, “Fiber dispersion influence on transmission of the optical millimeter-waves generated using LN-MZM intensity modulation,” J. Lightwave Technol. 25(11), 3244–3256 (2007). [Crossref] . G. H. Smith, D. Novak, and Z. Ahmed, “Overcoming chromatic-dispersion effects in fiber-wireless systems incorporating external modulators,” IEEE Trans. Microw. Theory Tech. 45(8), 1410–1415 (1997). [Crossref] . B. Ortega, J. L. Cruz, J. Capmany, M. V. Andres, and D. Pastor, “Variable delay line for phased-array antenna based on a chirped fiber grating,” IEEE Trans. Microw. Theory Tech. 48(8), 1352–1360 (2000). [Crossref] . D. B. Adams and C. K. Madsen, “A novel broadband photonic RF phase shifter,” J. Lightwave Technol. 26(15), 2712–2717 (2008). [Crossref] . W. Li, W. T. Wang, L. X. Wang, and N. H. Zhu, “Optical vector network analyzer based on single-sideband modulation and segmental measurement,” IEEE Photon. J. 6(2), 1–8 (2014). [Crossref] . Y. Zhang, F. Zhang, and S. Pan, “Optical single sideband modulation with tunable optical carrier-to-sideband ratio,” IEEE Photon. Technol. Lett. 26(7), 653–655 (2014). [Crossref] . Y. Ogiso, Y. Tsuchiya, S. Shinada, S. Nakajima, T. Kawanishi, and H. Nakajima, “High extinction-ratio integrated Mach–Zehnder modulator with active Y-branch for optical SSB signal generation,” IEEE Photon. Technol. Lett. 22(12), 941–943 (2010). [Crossref] . A. Rickman, “The commercialization of silicon photonics,” Nat. Photonics 8(8), 579–582 (2014). [Crossref] . S. X. Chew, X. Yi, S. Song, L. Li, P. Bian, L. Nguyen, and R. A. Minasian, “Silicon-on-insulator dual-ring notch filter for optical sideband suppression and spectral characterization,” J. Lightwave Technol. 34(20), 4705–4714 (2016). [Crossref] . A. A. Savchenkov, A. B. Matsko, W. Liang, V. S. Ilchenko, D. Seidel, and L. Maleki, “Single-sideband electro-optical modulator and tunable microwave photonic receiver,” IEEE Trans. Microw. Theory Tech. 58(11), 3167–3174 (2010). [Crossref] . S. R. Blais and J. Yao, “Optical single sideband modulation using an ultranarrow dual-transmission-band fiber Bragg grating,” IEEE Photon. Technol. Lett. 18(21), 2230–2232 (2006). [Crossref] . Y. Shen, X. Zhang, and K. Chen, “Optical single sideband modulation of 11-GHz RoF system using stimulated Brillouin scattering,” IEEE Photon. Technol. Lett. 17(6), 1277–1279 (2005). [Crossref] . B. M. Yu, J.-M. Lee, C. Mai, S. Lischke, L. Zimmermann, and W. Y. Choi, “Single-chip Si optical single-sideband modulator,” Photon. Res. 6(1), 6–11 (2018). [Crossref] . T. Dai, G. Wang, X. Guo, C. Bei, J. Jiang, W. Chen, Y. Wang, H. Yu, and J. Yang, “Scalable bandwidth-tunable micro-ring filter based on multi-channel-spectrum combination,” IEEE Photon. Technol. Lett. 30(11), 1044–1047 (2018). [Crossref] . P. Wang, T. Yang, T. Dai, G. Wang, J. Zhang, W. Chen, and J. Yang, “Design of a Flexible-Grid 1 2 wavelength-selective switch using silicon microring resonators,” IEEE Photon. J. 9(6), 1–10 (2017). . T. Dai, A. Shen, G. Wang, Y. Wang, Y. Li, X. Jiang, and J. Yang, “Bandwidth and wavelength tunable optical passband filter based on silicon multiple microring resonators,” Opt. Lett. 41(20), 4807–4810 (2016). [Crossref] [PubMed] . A. Pandey and S. K. Selvaraja, “Tunable coupling-induced resonance splitting in a self-coupled silicon ring cavity with robust spectral characteristics,” Opt. Lett. 42(14), 2854–2857 (2017). [Crossref] [PubMed] . B. Peng, S. K. Ozdemir, W. Chen, F. Nori, and L. Yang, “What is and what is not electromagnetically induced transparency in whispering-gallery microcavities,” Nat. Commun. 5, 1–9 (2014). [Crossref] . B.E. Little, J.P. Laine, and S.T. Chu, “Surface-roughness-induced contra-directional coupling in ring and disk resonators,” Opt. Lett. 22(1), 4–6 (1997). [Crossref] [PubMed] . 2018 (2). B. M. Yu, J.-M. Lee, C. Mai, S. Lischke, L. Zimmermann, and W. Y. Choi, “Single-chip Si optical single-sideband modulator,” Photon. Res. 6(1), 6–11 (2018). [Crossref] T. Dai, G. Wang, X. Guo, C. Bei, J. Jiang, W. Chen, Y. Wang, H. Yu, and J. Yang, “Scalable bandwidth-tunable micro-ring filter based on multi-channel-spectrum combination,” IEEE Photon. Technol. Lett. 30(11), 1044–1047 (2018). [Crossref] 2017 (7). P. Wang, T. Yang, T. Dai, G. Wang, J. Zhang, W. Chen, and J. Yang, “Design of a Flexible-Grid 1 2 wavelength-selective switch using silicon microring resonators,” IEEE Photon. J. 9(6), 1–10 (2017). A. Pandey and S. K. Selvaraja, “Tunable coupling-induced resonance splitting in a self-coupled silicon ring cavity with robust spectral characteristics,” Opt. Lett. 42(14), 2854–2857 (2017). [Crossref] [PubMed] Y. Tian, K.-L. Lee, C. Lim, and A. Nirmalathas, “60 GHz Analog Radio-Over-Fiber Fronthaul Investigations,” J. Lightwave Technol. 35(19), 4304–4310 (2017). [Crossref] J. S. Fandino, P. Munoz, D. Domenech, and J. Capmany, “A monolithic integrated photonic microwave filter,” Nat. Photonics 11(2), 124–129 (2017). [Crossref] J. Hervas, A.L. Ricchiuti, W. Li, N.H. Zhu, C.R. Fernandez-Pousa, S. Sales, M. Li, and J. Capmany, “Microwave photonics for optical sensors,” IEEE J. Sel. Top. Quantum Electron.,  23(2), 327–339 (2017). [Crossref] L. Breyne, G. Torfs, X. Yin, P. Demeester, and J. Bauwelinck, “Comparison Between Analog Radio-Over-Fiber and Sigma Delta Modulated Radio-Over-Fiber,” IEEE Photon. Technol. Lett. 29(21), 1808–1811 (2017). [Crossref] T. Qing, S. Li, M. Xue, W. Li, N. Zhu, and S. Pan, “Optical vector analysis based on asymmetrical optical double-sideband modulation using a dual-drive dual-parallel Mach–Zehnder modulator,” Opt. express 25(5), 4665–4671 (2017). [Crossref] [PubMed] 2016 (4). D. Novak, R. B. Waterhouse, A. Nirmalathas, C. Lim, P. A. Gamage, T. R. Clark, M. L. Dennis, and J. A. Nanzer, “Radio-over-fiber technologies for emerging wireless systems,” IEEE J. Quantum Electron. 52(1), 1–11 (2016). [Crossref] J. Zhang, O. L. Coutinho, and J. Yao, “A photonic approach to linearly chirped microwave waveform generation with an extended temporal duration,” IEEE Trans. Microw. Theory Tech. 64(6), 1947–1953 (2016). [Crossref] T. Dai, A. Shen, G. Wang, Y. Wang, Y. Li, X. Jiang, and J. Yang, “Bandwidth and wavelength tunable optical passband filter based on silicon multiple microring resonators,” Opt. Lett. 41(20), 4807–4810 (2016). [Crossref] [PubMed] S. X. Chew, X. Yi, S. Song, L. Li, P. Bian, L. Nguyen, and R. A. Minasian, “Silicon-on-insulator dual-ring notch filter for optical sideband suppression and spectral characterization,” J. Lightwave Technol. 34(20), 4705–4714 (2016). [Crossref] 2015 (1). M. Pagani, B. Morrison, Y. Zhang, A. Casas-Bedoya, T. Aalto, M. Harjanne, M. Kapulainen, B. J. Eggleton, and D. Marpaung, “Low-error and broadband microwave frequency measurement in a silicon chip,” Optica 2(8), 751–756 (2015). [Crossref] 2014 (4). W. Li, W. T. Wang, L. X. Wang, and N. H. Zhu, “Optical vector network analyzer based on single-sideband modulation and segmental measurement,” IEEE Photon. J. 6(2), 1–8 (2014). [Crossref] Y. Zhang, F. Zhang, and S. Pan, “Optical single sideband modulation with tunable optical carrier-to-sideband ratio,” IEEE Photon. Technol. Lett. 26(7), 653–655 (2014). [Crossref] B. Peng, S. K. Ozdemir, W. Chen, F. Nori, and L. Yang, “What is and what is not electromagnetically induced transparency in whispering-gallery microcavities,” Nat. Commun. 5, 1–9 (2014). [Crossref] A. Rickman, “The commercialization of silicon photonics,” Nat. Photonics 8(8), 579–582 (2014). [Crossref] 2012 (1). Y. Cui, K. Xu, J. Dai, X. Sun, Y. Dai, Y. Ji, and J. Lin, “Overcoming chromatic-dispersion-induced power fading in ROF links employing parallel modulators,” IEEE Photon. Technol. Lett. 24(14), 1173–1175 (2012). [Crossref] 2010 (3). Y. Ogiso, Y. Tsuchiya, S. Shinada, S. Nakajima, T. Kawanishi, and H. Nakajima, “High extinction-ratio integrated Mach–Zehnder modulator with active Y-branch for optical SSB signal generation,” IEEE Photon. Technol. Lett. 22(12), 941–943 (2010). [Crossref] D. Wake, A. Nkansah, and N.J. Gomes, “Radio over fiber link design for next generation wireless systems,” J. of Lightwave Technol. 28(16), 2456–2464 (2010). [Crossref] A. A. Savchenkov, A. B. Matsko, W. Liang, V. S. Ilchenko, D. Seidel, and L. Maleki, “Single-sideband electro-optical modulator and tunable microwave photonic receiver,” IEEE Trans. Microw. Theory Tech. 58(11), 3167–3174 (2010). [Crossref] 2008 (1). D. B. Adams and C. K. Madsen, “A novel broadband photonic RF phase shifter,” J. Lightwave Technol. 26(15), 2712–2717 (2008). [Crossref] 2007 (1). J. Ma, J. Yu, C. Yu, X. Xin, J. Zeng, and L. Chen, “Fiber dispersion influence on transmission of the optical millimeter-waves generated using LN-MZM intensity modulation,” J. Lightwave Technol. 25(11), 3244–3256 (2007). [Crossref] 2006 (1). S. R. Blais and J. Yao, “Optical single sideband modulation using an ultranarrow dual-transmission-band fiber Bragg grating,” IEEE Photon. Technol. Lett. 18(21), 2230–2232 (2006). [Crossref] 2005 (1). Y. Shen, X. Zhang, and K. Chen, “Optical single sideband modulation of 11-GHz RoF system using stimulated Brillouin scattering,” IEEE Photon. Technol. Lett. 17(6), 1277–1279 (2005). [Crossref] 2000 (1). B. Ortega, J. L. Cruz, J. Capmany, M. V. Andres, and D. Pastor, “Variable delay line for phased-array antenna based on a chirped fiber grating,” IEEE Trans. Microw. Theory Tech. 48(8), 1352–1360 (2000). [Crossref] 1997 (3). G. H. Smith, D. Novak, and Z. Ahmed, “Technique for optical SSB generation to overcome dispersion penalties in fibre-radio systems,” Electron. Lett. 33(1), 74–75 (1997). [Crossref] G. H. Smith, D. Novak, and Z. Ahmed, “Overcoming chromatic-dispersion effects in fiber-wireless systems incorporating external modulators,” IEEE Trans. Microw. Theory Tech. 45(8), 1410–1415 (1997). [Crossref] B.E. Little, J.P. Laine, and S.T. Chu, “Surface-roughness-induced contra-directional coupling in ring and disk resonators,” Opt. Lett. 22(1), 4–6 (1997). [Crossref] [PubMed] 1996 (1). U. Gliese, S. Norskov, and T. N. Nielsen, “Chromatic dispersion in fiber-optic microwave and millimeter-wave links,” IEEE Trans. Microw. Theory Tech. 44(10), 1716–1724 (1996). [Crossref] 1993 (1). K. Yonenaga and N. Takachio, “A fiber chromatic dispersion compensation technique with an optical SSB transmission in optical homodyne detection systems,” IEEE Photon. Technol. Lett. 5(8), 949–951 (1993). [Crossref] Aalto, T.. M. Pagani, B. Morrison, Y. Zhang, A. Casas-Bedoya, T. Aalto, M. Harjanne, M. Kapulainen, B. J. Eggleton, and D. Marpaung, “Low-error and broadband microwave frequency measurement in a silicon chip,” Optica 2(8), 751–756 (2015). [Crossref] Adams, D. B.. D. B. Adams and C. K. Madsen, “A novel broadband photonic RF phase shifter,” J. Lightwave Technol. 26(15), 2712–2717 (2008). [Crossref] Ahmed, Z.. G. H. Smith, D. Novak, and Z. Ahmed, “Overcoming chromatic-dispersion effects in fiber-wireless systems incorporating external modulators,” IEEE Trans. Microw. Theory Tech. 45(8), 1410–1415 (1997). [Crossref] G. H. Smith, D. Novak, and Z. Ahmed, “Technique for optical SSB generation to overcome dispersion penalties in fibre-radio systems,” Electron. Lett. 33(1), 74–75 (1997). [Crossref] Andres, M. V.. B. Ortega, J. L. Cruz, J. Capmany, M. V. Andres, and D. Pastor, “Variable delay line for phased-array antenna based on a chirped fiber grating,” IEEE Trans. Microw. Theory Tech. 48(8), 1352–1360 (2000). [Crossref] Bauwelinck, J.. L. Breyne, G. Torfs, X. Yin, P. Demeester, and J. Bauwelinck, “Comparison Between Analog Radio-Over-Fiber and Sigma Delta Modulated Radio-Over-Fiber,” IEEE Photon. Technol. Lett. 29(21), 1808–1811 (2017). [Crossref] Bei, C.. T. Dai, G. Wang, X. Guo, C. Bei, J. Jiang, W. Chen, Y. Wang, H. Yu, and J. Yang, “Scalable bandwidth-tunable micro-ring filter based on multi-channel-spectrum combination,” IEEE Photon. Technol. Lett. 30(11), 1044–1047 (2018). [Crossref] Bellido, J.C.. J.C. Bellido, J. Hervas, J. Madrigal, H. Maestre, G. Torregrosa, C.R. Fernandez-Pousa, and S. Sales, “Fast Incoherent OFDR Interrogation of FBG Arrays Using Sparse Radio-Frequency Responses,” J. Lightwave Technol. (2018) (in press). Bian, P.. S. X. Chew, X. Yi, S. Song, L. Li, P. Bian, L. Nguyen, and R. A. Minasian, “Silicon-on-insulator dual-ring notch filter for optical sideband suppression and spectral characterization,” J. Lightwave Technol. 34(20), 4705–4714 (2016). [Crossref] Blais, S. R.. S. R. Blais and J. Yao, “Optical single sideband modulation using an ultranarrow dual-transmission-band fiber Bragg grating,” IEEE Photon. Technol. Lett. 18(21), 2230–2232 (2006). [Crossref] Breyne, L.. L. Breyne, G. Torfs, X. Yin, P. Demeester, and J. Bauwelinck, “Comparison Between Analog Radio-Over-Fiber and Sigma Delta Modulated Radio-Over-Fiber,” IEEE Photon. Technol. Lett. 29(21), 1808–1811 (2017). [Crossref] Capmany, J.. J. Hervas, A.L. Ricchiuti, W. Li, N.H. Zhu, C.R. Fernandez-Pousa, S. Sales, M. Li, and J. Capmany, “Microwave photonics for optical sensors,” IEEE J. Sel. Top. Quantum Electron.,  23(2), 327–339 (2017). [Crossref] J. S. Fandino, P. Munoz, D. Domenech, and J. Capmany, “A monolithic integrated photonic microwave filter,” Nat. Photonics 11(2), 124–129 (2017). [Crossref] B. Ortega, J. L. Cruz, J. Capmany, M. V. Andres, and D. Pastor, “Variable delay line for phased-array antenna based on a chirped fiber grating,” IEEE Trans. Microw. Theory Tech. 48(8), 1352–1360 (2000). [Crossref] Casas-Bedoya, A.. M. Pagani, B. Morrison, Y. Zhang, A. Casas-Bedoya, T. Aalto, M. Harjanne, M. Kapulainen, B. J. Eggleton, and D. Marpaung, “Low-error and broadband microwave frequency measurement in a silicon chip,” Optica 2(8), 751–756 (2015). [Crossref] Chen, K.. Y. Shen, X. Zhang, and K. Chen, “Optical single sideband modulation of 11-GHz RoF system using stimulated Brillouin scattering,” IEEE Photon. Technol. Lett. 17(6), 1277–1279 (2005). [Crossref] Chen, L.. J. Ma, J. Yu, C. Yu, X. Xin, J. Zeng, and L. Chen, “Fiber dispersion influence on transmission of the optical millimeter-waves generated using LN-MZM intensity modulation,” J. Lightwave Technol. 25(11), 3244–3256 (2007). [Crossref] Chen, W.. T. Dai, G. Wang, X. Guo, C. Bei, J. Jiang, W. Chen, Y. Wang, H. Yu, and J. Yang, “Scalable bandwidth-tunable micro-ring filter based on multi-channel-spectrum combination,” IEEE Photon. Technol. Lett. 30(11), 1044–1047 (2018). [Crossref] P. Wang, T. Yang, T. Dai, G. Wang, J. Zhang, W. Chen, and J. Yang, “Design of a Flexible-Grid 1 2 wavelength-selective switch using silicon microring resonators,” IEEE Photon. J. 9(6), 1–10 (2017). B. Peng, S. K. Ozdemir, W. Chen, F. Nori, and L. Yang, “What is and what is not electromagnetically induced transparency in whispering-gallery microcavities,” Nat. Commun. 5, 1–9 (2014). [Crossref] Chew, S. X.. S. X. Chew, X. Yi, S. Song, L. Li, P. Bian, L. Nguyen, and R. A. Minasian, “Silicon-on-insulator dual-ring notch filter for optical sideband suppression and spectral characterization,” J. Lightwave Technol. 34(20), 4705–4714 (2016). [Crossref] Choi, W. Y.. B. M. Yu, J.-M. Lee, C. Mai, S. Lischke, L. Zimmermann, and W. Y. Choi, “Single-chip Si optical single-sideband modulator,” Photon. Res. 6(1), 6–11 (2018). [Crossref] Chu, S.T.. B.E. Little, J.P. Laine, and S.T. Chu, “Surface-roughness-induced contra-directional coupling in ring and disk resonators,” Opt. Lett. 22(1), 4–6 (1997). [Crossref] [PubMed] Clark, T. R.. D. Novak, R. B. Waterhouse, A. Nirmalathas, C. Lim, P. A. Gamage, T. R. Clark, M. L. Dennis, and J. A. Nanzer, “Radio-over-fiber technologies for emerging wireless systems,” IEEE J. Quantum Electron. 52(1), 1–11 (2016). [Crossref] Coutinho, O. L.. J. Zhang, O. L. Coutinho, and J. Yao, “A photonic approach to linearly chirped microwave waveform generation with an extended temporal duration,” IEEE Trans. Microw. Theory Tech. 64(6), 1947–1953 (2016). [Crossref] Cruz, J. L.. B. Ortega, J. L. Cruz, J. Capmany, M. V. Andres, and D. Pastor, “Variable delay line for phased-array antenna based on a chirped fiber grating,” IEEE Trans. Microw. Theory Tech. 48(8), 1352–1360 (2000). [Crossref] Cui, Y.. Y. Cui, K. Xu, J. Dai, X. Sun, Y. Dai, Y. Ji, and J. Lin, “Overcoming chromatic-dispersion-induced power fading in ROF links employing parallel modulators,” IEEE Photon. Technol. Lett. 24(14), 1173–1175 (2012). [Crossref] Dai, J.. Y. Cui, K. Xu, J. Dai, X. Sun, Y. Dai, Y. Ji, and J. Lin, “Overcoming chromatic-dispersion-induced power fading in ROF links employing parallel modulators,” IEEE Photon. Technol. Lett. 24(14), 1173–1175 (2012). [Crossref] Dai, T.. T. Dai, G. Wang, X. Guo, C. Bei, J. Jiang, W. Chen, Y. Wang, H. Yu, and J. Yang, “Scalable bandwidth-tunable micro-ring filter based on multi-channel-spectrum combination,” IEEE Photon. Technol. Lett. 30(11), 1044–1047 (2018). [Crossref] P. Wang, T. Yang, T. Dai, G. Wang, J. Zhang, W. Chen, and J. Yang, “Design of a Flexible-Grid 1 2 wavelength-selective switch using silicon microring resonators,” IEEE Photon. J. 9(6), 1–10 (2017). T. Dai, A. Shen, G. Wang, Y. Wang, Y. Li, X. Jiang, and J. Yang, “Bandwidth and wavelength tunable optical passband filter based on silicon multiple microring resonators,” Opt. Lett. 41(20), 4807–4810 (2016). [Crossref] [PubMed] Dai, Y.. Y. Cui, K. Xu, J. Dai, X. Sun, Y. Dai, Y. Ji, and J. Lin, “Overcoming chromatic-dispersion-induced power fading in ROF links employing parallel modulators,” IEEE Photon. Technol. Lett. 24(14), 1173–1175 (2012). [Crossref] Demeester, P.. L. Breyne, G. Torfs, X. Yin, P. Demeester, and J. Bauwelinck, “Comparison Between Analog Radio-Over-Fiber and Sigma Delta Modulated Radio-Over-Fiber,” IEEE Photon. Technol. Lett. 29(21), 1808–1811 (2017). [Crossref] Dennis, M. L.. D. Novak, R. B. Waterhouse, A. Nirmalathas, C. Lim, P. A. Gamage, T. R. Clark, M. L. Dennis, and J. A. Nanzer, “Radio-over-fiber technologies for emerging wireless systems,” IEEE J. Quantum Electron. 52(1), 1–11 (2016). [Crossref] Domenech, D.. J. S. Fandino, P. Munoz, D. Domenech, and J. Capmany, “A monolithic integrated photonic microwave filter,” Nat. Photonics 11(2), 124–129 (2017). [Crossref] Eggleton, B. J.. M. Pagani, B. Morrison, Y. Zhang, A. Casas-Bedoya, T. Aalto, M. Harjanne, M. Kapulainen, B. J. Eggleton, and D. Marpaung, “Low-error and broadband microwave frequency measurement in a silicon chip,” Optica 2(8), 751–756 (2015). [Crossref] Fandino, J. S.. J. S. Fandino, P. Munoz, D. Domenech, and J. Capmany, “A monolithic integrated photonic microwave filter,” Nat. Photonics 11(2), 124–129 (2017). [Crossref] Fernandez-Pousa, C.R.. J. Hervas, A.L. Ricchiuti, W. Li, N.H. Zhu, C.R. Fernandez-Pousa, S. Sales, M. Li, and J. Capmany, “Microwave photonics for optical sensors,” IEEE J. Sel. Top. Quantum Electron.,  23(2), 327–339 (2017). [Crossref] J.C. Bellido, J. Hervas, J. Madrigal, H. Maestre, G. Torregrosa, C.R. Fernandez-Pousa, and S. Sales, “Fast Incoherent OFDR Interrogation of FBG Arrays Using Sparse Radio-Frequency Responses,” J. Lightwave Technol. (2018) (in press). Gamage, P. A.. D. Novak, R. B. Waterhouse, A. Nirmalathas, C. Lim, P. A. Gamage, T. R. Clark, M. L. Dennis, and J. A. Nanzer, “Radio-over-fiber technologies for emerging wireless systems,” IEEE J. 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