[{"keyword":["General Engineering"],"language":[{"iso":"eng"}],"_id":"38532","user_id":"44252","status":"public","type":"journal_article","publication":"Journal of Lightwave Technology","title":"On-Chip Quantum Communication Devices","doi":"10.1109/jlt.2022.3201389","publisher":"Institute of Electrical and Electronics Engineers (IEEE)","date_updated":"2023-01-26T09:10:58Z","author":[{"last_name":"Trenti","full_name":"Trenti, Alessandro","first_name":"Alessandro"},{"first_name":"Martin","last_name":"Achleitner","full_name":"Achleitner, Martin"},{"first_name":"Florian","last_name":"Prawits","full_name":"Prawits, Florian"},{"first_name":"Bernhard","last_name":"Schrenk","full_name":"Schrenk, Bernhard"},{"first_name":"Hauke","last_name":"Conradi","full_name":"Conradi, Hauke"},{"last_name":"Kleinert","full_name":"Kleinert, Moritz","first_name":"Moritz"},{"first_name":"Alfonso","full_name":"Incoronato, Alfonso","last_name":"Incoronato"},{"first_name":"Francesco","full_name":"Zanetto, Francesco","last_name":"Zanetto"},{"last_name":"Zappa","full_name":"Zappa, Franco","first_name":"Franco"},{"last_name":"Luch","full_name":"Luch, Ilaria Di","first_name":"Ilaria Di"},{"first_name":"Ozan","last_name":"Cirkinoglu","full_name":"Cirkinoglu, Ozan"},{"first_name":"Xaveer","full_name":"Leijtens, Xaveer","last_name":"Leijtens"},{"last_name":"Bonardi","full_name":"Bonardi, Antonio","first_name":"Antonio"},{"full_name":"Bruynsteen, Cedric","last_name":"Bruynsteen","first_name":"Cedric"},{"full_name":"Yin, Xin","last_name":"Yin","first_name":"Xin"},{"full_name":"Kießler, Christian","id":"44252","last_name":"Kießler","first_name":"Christian"},{"last_name":"Herrmann","full_name":"Herrmann, Harald","id":"216","first_name":"Harald"},{"last_name":"Silberhorn","id":"26263","full_name":"Silberhorn, Christine","first_name":"Christine"},{"last_name":"Bozzio","full_name":"Bozzio, Mathieu","first_name":"Mathieu"},{"first_name":"Philip","full_name":"Walther, Philip","last_name":"Walther"},{"last_name":"Thiel","full_name":"Thiel, Hannah C.","first_name":"Hannah C."},{"full_name":"Weihs, Gregor","last_name":"Weihs","first_name":"Gregor"},{"last_name":"Hubel","full_name":"Hubel, Hannes","first_name":"Hannes"}],"date_created":"2023-01-24T07:41:40Z","volume":40,"year":"2022","citation":{"ieee":"A. Trenti et al., “On-Chip Quantum Communication Devices,” Journal of Lightwave Technology, vol. 40, no. 23, pp. 7485–7497, 2022, doi: 10.1109/jlt.2022.3201389.","chicago":"Trenti, Alessandro, Martin Achleitner, Florian Prawits, Bernhard Schrenk, Hauke Conradi, Moritz Kleinert, Alfonso Incoronato, et al. “On-Chip Quantum Communication Devices.” Journal of Lightwave Technology 40, no. 23 (2022): 7485–97. https://doi.org/10.1109/jlt.2022.3201389.","ama":"Trenti A, Achleitner M, Prawits F, et al. On-Chip Quantum Communication Devices. Journal of Lightwave Technology. 2022;40(23):7485-7497. doi:10.1109/jlt.2022.3201389","short":"A. Trenti, M. Achleitner, F. Prawits, B. Schrenk, H. Conradi, M. Kleinert, A. Incoronato, F. Zanetto, F. Zappa, I.D. Luch, O. Cirkinoglu, X. Leijtens, A. Bonardi, C. Bruynsteen, X. Yin, C. Kießler, H. Herrmann, C. Silberhorn, M. Bozzio, P. Walther, H.C. Thiel, G. Weihs, H. Hubel, Journal of Lightwave Technology 40 (2022) 7485–7497.","bibtex":"@article{Trenti_Achleitner_Prawits_Schrenk_Conradi_Kleinert_Incoronato_Zanetto_Zappa_Luch_et al._2022, title={On-Chip Quantum Communication Devices}, volume={40}, DOI={10.1109/jlt.2022.3201389}, number={23}, journal={Journal of Lightwave Technology}, publisher={Institute of Electrical and Electronics Engineers (IEEE)}, author={Trenti, Alessandro and Achleitner, Martin and Prawits, Florian and Schrenk, Bernhard and Conradi, Hauke and Kleinert, Moritz and Incoronato, Alfonso and Zanetto, Francesco and Zappa, Franco and Luch, Ilaria Di and et al.}, year={2022}, pages={7485–7497} }","mla":"Trenti, Alessandro, et al. “On-Chip Quantum Communication Devices.” Journal of Lightwave Technology, vol. 40, no. 23, Institute of Electrical and Electronics Engineers (IEEE), 2022, pp. 7485–97, doi:10.1109/jlt.2022.3201389.","apa":"Trenti, A., Achleitner, M., Prawits, F., Schrenk, B., Conradi, H., Kleinert, M., Incoronato, A., Zanetto, F., Zappa, F., Luch, I. D., Cirkinoglu, O., Leijtens, X., Bonardi, A., Bruynsteen, C., Yin, X., Kießler, C., Herrmann, H., Silberhorn, C., Bozzio, M., … Hubel, H. (2022). On-Chip Quantum Communication Devices. Journal of Lightwave Technology, 40(23), 7485–7497. https://doi.org/10.1109/jlt.2022.3201389"},"page":"7485-7497","intvolume":" 40","publication_status":"published","publication_identifier":{"issn":["0733-8724","1558-2213"]},"issue":"23"},{"_id":"29209","project":[{"_id":"303","name":"SPP 2111; TP: Ultrabreitbandiger Photonisch-Elektronischer Analog-Digital-Wandler (PACE) - Phase 2"}],"department":[{"_id":"58"},{"_id":"230"}],"user_id":"44271","keyword":["Atomic and Molecular Physics","and Optics"],"language":[{"iso":"eng"}],"publication":"Journal of Lightwave Technology","type":"journal_article","abstract":[{"text":"We demonstrate an optical arbitrary waveform measurement (OAWM) system that exploits a bank of silicon photonic (SiP) frequency-tunable coupled-resonator optical waveguide (CROW) filters for gapless spectral slicing of broadband optical signals. The spectral slices are coherently detected using a frequency comb as a multi-wavelength local oscillator (LO) and stitched together by digital signal processing (DSP). For high-quality signal reconstruction, we have implemented a maximum-ratio combining (MRC) technique based on precise calibration of the complex-valued opto-electronic transfer functions of all detection paths. In a proof-of-concept experiment, we demonstrate the viability of the scheme by implementing a four-channel system that offers an overall detection bandwidth of 140 GHz. Exploiting a femtosecond laser with precisely known pulse shape for calibration along with dynamic amplitude and phase estimation, we reconstruct 100 GBd QPSK, 16QAM and 64QAM optical data signals. The reconstructed signals show improved quality compared to that obtained with a single high-speed intradyne receiver, while the electronic bandwidth requirements of the individual coherent receivers are greatly reduced.","lang":"eng"}],"status":"public","date_updated":"2025-10-30T09:14:55Z","publisher":"Institute of Electrical and Electronics Engineers (IEEE)","author":[{"full_name":"Fang, Dengyang","last_name":"Fang","first_name":"Dengyang"},{"full_name":"Zazzi, Andrea","last_name":"Zazzi","first_name":"Andrea"},{"full_name":"Müller, Juliana","last_name":"Müller","first_name":"Juliana"},{"full_name":"Dray, Daniel","last_name":"Dray","first_name":"Daniel"},{"first_name":"Christoph","last_name":"Fullner","full_name":"Fullner, Christoph"},{"last_name":"Marin-Palomo","full_name":"Marin-Palomo, Pablo","first_name":"Pablo"},{"last_name":"Tabatabaei Mashayekh","full_name":"Tabatabaei Mashayekh, Alireza","first_name":"Alireza"},{"first_name":"Arka","full_name":"Dipta Das, Arka","last_name":"Dipta Das"},{"first_name":"Maxim","id":"44271","full_name":"Weizel, Maxim","orcid":"https://orcid.org/0000-0003-2699-9839","last_name":"Weizel"},{"first_name":"Sergiy","last_name":"Gudyriev","full_name":"Gudyriev, Sergiy"},{"first_name":"Wolfgang","full_name":"Freude, Wolfgang","last_name":"Freude"},{"first_name":"Sebastian","last_name":"Randel","full_name":"Randel, Sebastian"},{"first_name":"J. Christoph","id":"37144","full_name":"Scheytt, J. Christoph","last_name":"Scheytt","orcid":"https://orcid.org/0000-0002-5950-6618"},{"first_name":"Jeremy","last_name":"Witzens","full_name":"Witzens, Jeremy"},{"first_name":"Christian","full_name":"Koos, Christian","last_name":"Koos"}],"date_created":"2022-01-10T13:43:46Z","title":"Optical Arbitrary Waveform Measurement Using Silicon Photonic Slicing Filters","doi":"10.1109/jlt.2021.3130764","publication_identifier":{"issn":["0733-8724","1558-2213"]},"publication_status":"published","year":"2021","page":"1-1","citation":{"apa":"Fang, D., Zazzi, A., Müller, J., Dray, D., Fullner, C., Marin-Palomo, P., Tabatabaei Mashayekh, A., Dipta Das, A., Weizel, M., Gudyriev, S., Freude, W., Randel, S., Scheytt, J. C., Witzens, J., & Koos, C. (2021). Optical Arbitrary Waveform Measurement Using Silicon Photonic Slicing Filters. Journal of Lightwave Technology, 1–1. https://doi.org/10.1109/jlt.2021.3130764","mla":"Fang, Dengyang, et al. “Optical Arbitrary Waveform Measurement Using Silicon Photonic Slicing Filters.” Journal of Lightwave Technology, Institute of Electrical and Electronics Engineers (IEEE), 2021, pp. 1–1, doi:10.1109/jlt.2021.3130764.","short":"D. Fang, A. Zazzi, J. Müller, D. Dray, C. Fullner, P. Marin-Palomo, A. Tabatabaei Mashayekh, A. Dipta Das, M. Weizel, S. Gudyriev, W. Freude, S. Randel, J.C. Scheytt, J. Witzens, C. Koos, Journal of Lightwave Technology (2021) 1–1.","bibtex":"@article{Fang_Zazzi_Müller_Dray_Fullner_Marin-Palomo_Tabatabaei Mashayekh_Dipta Das_Weizel_Gudyriev_et al._2021, title={Optical Arbitrary Waveform Measurement Using Silicon Photonic Slicing Filters}, DOI={10.1109/jlt.2021.3130764}, journal={Journal of Lightwave Technology}, publisher={Institute of Electrical and Electronics Engineers (IEEE)}, author={Fang, Dengyang and Zazzi, Andrea and Müller, Juliana and Dray, Daniel and Fullner, Christoph and Marin-Palomo, Pablo and Tabatabaei Mashayekh, Alireza and Dipta Das, Arka and Weizel, Maxim and Gudyriev, Sergiy and et al.}, year={2021}, pages={1–1} }","ieee":"D. Fang et al., “Optical Arbitrary Waveform Measurement Using Silicon Photonic Slicing Filters,” Journal of Lightwave Technology, pp. 1–1, 2021, doi: 10.1109/jlt.2021.3130764.","chicago":"Fang, Dengyang, Andrea Zazzi, Juliana Müller, Daniel Dray, Christoph Fullner, Pablo Marin-Palomo, Alireza Tabatabaei Mashayekh, et al. “Optical Arbitrary Waveform Measurement Using Silicon Photonic Slicing Filters.” Journal of Lightwave Technology, 2021, 1–1. https://doi.org/10.1109/jlt.2021.3130764.","ama":"Fang D, Zazzi A, Müller J, et al. Optical Arbitrary Waveform Measurement Using Silicon Photonic Slicing Filters. Journal of Lightwave Technology. Published online 2021:1-1. doi:10.1109/jlt.2021.3130764"}},{"file_date_updated":"2018-09-03T14:43:26Z","article_type":"original","department":[{"_id":"61"}],"user_id":"158","_id":"3847","status":"public","type":"journal_article","doi":"10.1109/jlt.2015.2502431","volume":34,"author":[{"full_name":"Hammer, Manfred","id":"48077","last_name":"Hammer","orcid":"0000-0002-6331-9348","first_name":"Manfred"},{"first_name":"Andre","last_name":"Hildebrandt","full_name":"Hildebrandt, Andre"},{"last_name":"Förstner","orcid":"0000-0001-7059-9862","id":"158","full_name":"Förstner, Jens","first_name":"Jens"}],"date_updated":"2022-01-06T06:59:44Z","page":"997-1005","intvolume":" 34","citation":{"chicago":"Hammer, Manfred, Andre Hildebrandt, and Jens Förstner. “Full Resonant Transmission of Semiguided Planar Waves Through Slab Waveguide Steps at Oblique Incidence.” Journal of Lightwave Technology 34, no. 3 (2015): 997–1005. https://doi.org/10.1109/jlt.2015.2502431.","ieee":"M. Hammer, A. Hildebrandt, and J. Förstner, “Full Resonant Transmission of Semiguided Planar Waves Through Slab Waveguide Steps at Oblique Incidence,” Journal of Lightwave Technology, vol. 34, no. 3, pp. 997–1005, 2015.","ama":"Hammer M, Hildebrandt A, Förstner J. Full Resonant Transmission of Semiguided Planar Waves Through Slab Waveguide Steps at Oblique Incidence. Journal of Lightwave Technology. 2015;34(3):997-1005. doi:10.1109/jlt.2015.2502431","short":"M. Hammer, A. Hildebrandt, J. Förstner, Journal of Lightwave Technology 34 (2015) 997–1005.","mla":"Hammer, Manfred, et al. “Full Resonant Transmission of Semiguided Planar Waves Through Slab Waveguide Steps at Oblique Incidence.” Journal of Lightwave Technology, vol. 34, no. 3, Institute of Electrical and Electronics Engineers (IEEE), 2015, pp. 997–1005, doi:10.1109/jlt.2015.2502431.","bibtex":"@article{Hammer_Hildebrandt_Förstner_2015, title={Full Resonant Transmission of Semiguided Planar Waves Through Slab Waveguide Steps at Oblique Incidence}, volume={34}, DOI={10.1109/jlt.2015.2502431}, number={3}, journal={Journal of Lightwave Technology}, publisher={Institute of Electrical and Electronics Engineers (IEEE)}, author={Hammer, Manfred and Hildebrandt, Andre and Förstner, Jens}, year={2015}, pages={997–1005} }","apa":"Hammer, M., Hildebrandt, A., & Förstner, J. (2015). Full Resonant Transmission of Semiguided Planar Waves Through Slab Waveguide Steps at Oblique Incidence. Journal of Lightwave Technology, 34(3), 997–1005. https://doi.org/10.1109/jlt.2015.2502431"},"has_accepted_license":"1","publication_identifier":{"issn":["0733-8724","1558-2213"]},"publication_status":"published","language":[{"iso":"eng"}],"keyword":["tet_topic_waveguide"],"ddc":["530"],"file":[{"relation":"main_file","content_type":"application/pdf","file_size":606723,"file_id":"3848","access_level":"local","file_name":"2016 Hammer,Hildebrandt,Förstner_Full resonant transmission of semi-guided planar waves.pdf","date_updated":"2018-09-03T14:43:26Z","date_created":"2018-08-08T10:37:19Z","creator":"hclaudia"}],"abstract":[{"text":"Sheets of slab waveguides with sharp corners are investigated. By means of rigorous\r\nnumerical experiments, we look at oblique incidence of semi-guided plane waves. Radiation losses\r\nvanish beyond a certain critical angle of incidence. One can thus realize lossless propagation through\r\n90-degree corner configurations, where the remaining guided waves are still subject to pronounced\r\nreflection and polarization conversion. A system of two corners can be viewed as a structure akin to\r\na Fabry-Perot-interferometer. By adjusting the distance between the two partial reflectors, here the\r\n90-degree corners, one identifies step-like configurations that transmit the semi-guided plane waves\r\nwithout radiation losses, and virtually without reflections. Simulations of semi-guided beams with\r\nin-plane wide Gaussian profiles show that the effect survives in a true 3-D framework.","lang":"eng"}],"publication":"Journal of Lightwave Technology","title":"Full Resonant Transmission of Semiguided Planar Waves Through Slab Waveguide Steps at Oblique Incidence","date_created":"2018-08-08T10:34:34Z","publisher":"Institute of Electrical and Electronics Engineers (IEEE)","year":"2015","issue":"3"},{"_id":"38437","department":[{"_id":"56"}],"user_id":"14931","language":[{"iso":"eng"}],"publication":"JOURNAL OF LIGHTWAVE TECHNOLOGY","type":"journal_article","status":"public","date_updated":"2023-01-25T15:23:54Z","volume":33,"author":[{"full_name":"Noé, Reinhold","id":"381","orcid":"https://orcid.org/0000-0002-5839-7616","last_name":"Noé","first_name":"Reinhold"},{"last_name":"Koch","full_name":"Koch, Benjamin","first_name":"Benjamin"},{"first_name":"David","full_name":"Sandel, David","last_name":"Sandel"},{"first_name":"Vitali","last_name":"Mirvoda","full_name":"Mirvoda, Vitali"}],"date_created":"2023-01-23T18:22:00Z","title":"Polarization-Dependent Loss: New Definition and Measurement Techniques","doi":"10.1109/JLT.2014.2386651","publication_identifier":{"issn":["0733-8724"]},"issue":"10","year":"2015","page":"2127-2138","intvolume":" 33","citation":{"chicago":"Noé, Reinhold, Benjamin Koch, David Sandel, and Vitali Mirvoda. “Polarization-Dependent Loss: New Definition and Measurement Techniques.” JOURNAL OF LIGHTWAVE TECHNOLOGY 33, no. 10 (2015): 2127–38. https://doi.org/10.1109/JLT.2014.2386651.","ieee":"R. Noé, B. Koch, D. Sandel, and V. Mirvoda, “Polarization-Dependent Loss: New Definition and Measurement Techniques,” JOURNAL OF LIGHTWAVE TECHNOLOGY, vol. 33, no. 10, pp. 2127–2138, 2015, doi: 10.1109/JLT.2014.2386651.","ama":"Noé R, Koch B, Sandel D, Mirvoda V. Polarization-Dependent Loss: New Definition and Measurement Techniques. JOURNAL OF LIGHTWAVE TECHNOLOGY. 2015;33(10):2127-2138. doi:10.1109/JLT.2014.2386651","short":"R. Noé, B. Koch, D. Sandel, V. Mirvoda, JOURNAL OF LIGHTWAVE TECHNOLOGY 33 (2015) 2127–2138.","bibtex":"@article{Noé_Koch_Sandel_Mirvoda_2015, title={Polarization-Dependent Loss: New Definition and Measurement Techniques}, volume={33}, DOI={10.1109/JLT.2014.2386651}, number={10}, journal={JOURNAL OF LIGHTWAVE TECHNOLOGY}, author={Noé, Reinhold and Koch, Benjamin and Sandel, David and Mirvoda, Vitali}, year={2015}, pages={2127–2138} }","mla":"Noé, Reinhold, et al. “Polarization-Dependent Loss: New Definition and Measurement Techniques.” JOURNAL OF LIGHTWAVE TECHNOLOGY, vol. 33, no. 10, 2015, pp. 2127–38, doi:10.1109/JLT.2014.2386651.","apa":"Noé, R., Koch, B., Sandel, D., & Mirvoda, V. (2015). Polarization-Dependent Loss: New Definition and Measurement Techniques. JOURNAL OF LIGHTWAVE TECHNOLOGY, 33(10), 2127–2138. https://doi.org/10.1109/JLT.2014.2386651"}},{"publication":"JOURNAL OF LIGHTWAVE TECHNOLOGY","type":"journal_article","status":"public","department":[{"_id":"56"}],"user_id":"14931","_id":"38376","language":[{"iso":"eng"}],"issue":"5-8","publication_identifier":{"issn":["0733-8724"]},"page":"989-999","intvolume":" 27","citation":{"ama":"Pfau T, Hoffmann S, Noé R. Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations. JOURNAL OF LIGHTWAVE TECHNOLOGY. 2009;27(5-8):989-999. doi:10.1109/JLT.2008.2010511","ieee":"T. Pfau, S. Hoffmann, and R. Noé, “Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations,” JOURNAL OF LIGHTWAVE TECHNOLOGY, vol. 27, no. 5–8, pp. 989–999, 2009, doi: 10.1109/JLT.2008.2010511.","chicago":"Pfau, Timo, Sebastian Hoffmann, and Reinhold Noé. “Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations.” JOURNAL OF LIGHTWAVE TECHNOLOGY 27, no. 5–8 (2009): 989–99. https://doi.org/10.1109/JLT.2008.2010511.","apa":"Pfau, T., Hoffmann, S., & Noé, R. (2009). Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations. JOURNAL OF LIGHTWAVE TECHNOLOGY, 27(5–8), 989–999. https://doi.org/10.1109/JLT.2008.2010511","mla":"Pfau, Timo, et al. “Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations.” JOURNAL OF LIGHTWAVE TECHNOLOGY, vol. 27, no. 5–8, 2009, pp. 989–99, doi:10.1109/JLT.2008.2010511.","bibtex":"@article{Pfau_Hoffmann_Noé_2009, title={Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations}, volume={27}, DOI={10.1109/JLT.2008.2010511}, number={5–8}, journal={JOURNAL OF LIGHTWAVE TECHNOLOGY}, author={Pfau, Timo and Hoffmann, Sebastian and Noé, Reinhold}, year={2009}, pages={989–999} }","short":"T. Pfau, S. Hoffmann, R. Noé, JOURNAL OF LIGHTWAVE TECHNOLOGY 27 (2009) 989–999."},"year":"2009","volume":27,"author":[{"first_name":"Timo","full_name":"Pfau, Timo","last_name":"Pfau"},{"first_name":"Sebastian","last_name":"Hoffmann","full_name":"Hoffmann, Sebastian"},{"id":"381","full_name":"Noé, Reinhold","last_name":"Noé","orcid":"https://orcid.org/0000-0002-5839-7616","first_name":"Reinhold"}],"date_created":"2023-01-23T18:17:46Z","date_updated":"2023-01-25T16:18:22Z","doi":"10.1109/JLT.2008.2010511","title":"Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations"},{"publication":"JOURNAL OF LIGHTWAVE TECHNOLOGY","type":"journal_article","status":"public","_id":"38326","department":[{"_id":"56"}],"user_id":"14931","language":[{"iso":"eng"}],"publication_identifier":{"issn":["0733-8724"]},"issue":"5-8","year":"2009","page":"989-999","intvolume":" 27","citation":{"ieee":"T. Pfau, S. Hoffmann, and R. Noé, “Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations,” JOURNAL OF LIGHTWAVE TECHNOLOGY, vol. 27, no. 5–8, pp. 989–999, 2009, doi: 10.1109/JLT.2008.2010511.","chicago":"Pfau, Timo, Sebastian Hoffmann, and Reinhold Noé. “Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations.” JOURNAL OF LIGHTWAVE TECHNOLOGY 27, no. 5–8 (2009): 989–99. https://doi.org/10.1109/JLT.2008.2010511.","ama":"Pfau T, Hoffmann S, Noé R. Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations. JOURNAL OF LIGHTWAVE TECHNOLOGY. 2009;27(5-8):989-999. doi:10.1109/JLT.2008.2010511","apa":"Pfau, T., Hoffmann, S., & Noé, R. (2009). Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations. JOURNAL OF LIGHTWAVE TECHNOLOGY, 27(5–8), 989–999. https://doi.org/10.1109/JLT.2008.2010511","short":"T. Pfau, S. Hoffmann, R. Noé, JOURNAL OF LIGHTWAVE TECHNOLOGY 27 (2009) 989–999.","bibtex":"@article{Pfau_Hoffmann_Noé_2009, title={Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations}, volume={27}, DOI={10.1109/JLT.2008.2010511}, number={5–8}, journal={JOURNAL OF LIGHTWAVE TECHNOLOGY}, author={Pfau, Timo and Hoffmann, Sebastian and Noé, Reinhold}, year={2009}, pages={989–999} }","mla":"Pfau, Timo, et al. “Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations.” JOURNAL OF LIGHTWAVE TECHNOLOGY, vol. 27, no. 5–8, 2009, pp. 989–99, doi:10.1109/JLT.2008.2010511."},"date_updated":"2023-01-25T22:23:38Z","volume":27,"author":[{"full_name":"Pfau, Timo","last_name":"Pfau","first_name":"Timo"},{"first_name":"Sebastian","last_name":"Hoffmann","full_name":"Hoffmann, Sebastian"},{"id":"381","full_name":"Noé, Reinhold","last_name":"Noé","orcid":"https://orcid.org/0000-0002-5839-7616","first_name":"Reinhold"}],"date_created":"2023-01-23T18:11:17Z","title":"Hardware-Efficient Coherent Digital Receiver Concept With Feedforward Carrier Recovery for M-QAM Constellations","doi":"10.1109/JLT.2008.2010511"},{"date_created":"2023-01-23T18:22:03Z","author":[{"first_name":"Suhas","full_name":"Bhandare, Suhas","last_name":"Bhandare"},{"full_name":"Noé, Reinhold","id":"381","orcid":"https://orcid.org/0000-0002-5839-7616","last_name":"Noé","first_name":"Reinhold"}],"volume":25,"date_updated":"2023-01-25T13:54:56Z","doi":"10.1109/JLT.2007.901515","title":"Distributed PMD compensator in Lithium-Niobate-Tantalate: Performance Modeling toward highest bit rates","issue":"9","publication_identifier":{"issn":["0733-8724"]},"citation":{"ama":"Bhandare S, Noé R. Distributed PMD compensator in Lithium-Niobate-Tantalate: Performance Modeling toward highest bit rates. JOURNAL OF LIGHTWAVE TECHNOLOGY. 2007;25(9):2315-2320. doi:10.1109/JLT.2007.901515","chicago":"Bhandare, Suhas, and Reinhold Noé. “Distributed PMD Compensator in Lithium-Niobate-Tantalate: Performance Modeling toward Highest Bit Rates.” JOURNAL OF LIGHTWAVE TECHNOLOGY 25, no. 9 (2007): 2315–20. https://doi.org/10.1109/JLT.2007.901515.","ieee":"S. Bhandare and R. Noé, “Distributed PMD compensator in Lithium-Niobate-Tantalate: Performance Modeling toward highest bit rates,” JOURNAL OF LIGHTWAVE TECHNOLOGY, vol. 25, no. 9, pp. 2315–2320, 2007, doi: 10.1109/JLT.2007.901515.","apa":"Bhandare, S., & Noé, R. (2007). Distributed PMD compensator in Lithium-Niobate-Tantalate: Performance Modeling toward highest bit rates. JOURNAL OF LIGHTWAVE TECHNOLOGY, 25(9), 2315–2320. https://doi.org/10.1109/JLT.2007.901515","short":"S. Bhandare, R. 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