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Controlled integration of selected detectors and emitters in photonic integrated circuits
References. View by:. Article Order. Year. Author. Publication. F. Marsili, V. B. Verma, J. A. Stern, S. Harrington, A. E. Lita, T. Gerrits, I. Vayshenker, B. Baek, M. D. Shaw, R. P. Mirin, and S. W. Nam, “Detecting single infrared photons with 93% system efficiency,” Nature Photonics?7, 210 (2013). [Crossref] . I. Esmaeil Zadeh, J. W. N. Los, R. B. M. Gourgues, V. Steinmetz, G. Bulgarini, S. M. Dobrovolskiy, V. Zwiller, and S. N. Dorenbos, “Single-photon detectors combining high efficiency, high detection rates, and ultra-high timing resolution,” APL Photonics?2, 111301 (2017). [Crossref] . W. Zhang, L. You, H. Li, J. Huang, C. Lv, L. Zhang, X. Liu, J. Wu, Z. Wang, and X. Xie, “Nbn superconducting nanowire single photon detector with efficiency over 90% at 1550 nm wavelength operational at compact cryocooler temperature,” Science China Physics, Mechanics & Astronomy?60, 120314 (2017). [Crossref] . I. Esmaeil Zadeh, J. W. N. Los, R. B. M. Gourgues, G. Bulgarini, S. M. Dobrovolskiy, V. Zwiller, and S. N. Dorenbos, “A single-photon detector with high efficiency and sub-10ps time resolution,” ArXiv e-prints (2018). . B. A. Korzh, Q.-Y. Zhao, S. Frasca, J. P. Allmaras, T. M. Autry, E. A. Bersin, M. Colangelo, G. M. Crouch, A. E. Dane, T. Gerrits, F. Marsili, G. Moody, E. Ramirez, J. D. Rezac, J. M. Stevens, E. E. Wollman, D. Zhu, P. D. Hale, K. L. Silverman, R. P. Mirin, S. W. Nam, M. D. Shaw, and K. K. Berggren, “Demonstrating sub-3 ps temporal resolution in a superconducting nanowire single-photon detector,” ArXiv e-prints. . C. Schuck, W. H. P. Pernice, and H. X. Tang, “Waveguide integrated low noise nbtin nanowire single- photon detectors with milli-hz dark count rate,” Scientific Reports?3, 1893 (2013). [Crossref] . J. L. O’Brien, A. Furusawa, and J. Vuckovic, “Photonic quantum technologies,” Nature Photonics?3, 687 (2009). [Crossref] . Y. Shen, N. C. Harris, S. Skirlo, M. Prabhu, T. Baehr-Jones, M. Hochberg, X. Sun, S. Zhao, H. Larochelle, D. Englund, and M. Soljacic, “Deep learning with coherent nanophotonic circuits,” Nature Photonics?11, 441 (2017). [Crossref] . J. M. Shainline, S. M. Buckley, R. P. Mirin, and S. W. Nam, “Superconducting optoelectronic circuits for neuromorphic computing,” Phys. Rev. Applied?7, 034013 (2017). [Crossref] . V. Kovalyuk, W. Hartmann, O. Kahl, N. Kaurova, A. Korneev, G. Goltsman, and W. H. P. Pernice, “Absorption engineering of nbn nanowires deposited on silicon nitride nanophotonic circuits,” Opt. Express?21, 22683–22692 (2013). [Crossref] [PubMed] . W. H. P. Pernice, C. Schuck, O. Minaeva, M. Li, G. N. Goltsman, A. V. Sergienko, and H. X. Tang, “High-speed and high-efficiency travelling wave single-photon detectors embedded in nanophotonic circuits,” Nature Communications?3, 1325 (2012). [Crossref] . C. Schuck, W. H. P. Pernice, and H. X. Tang, “Nbtin superconducting nanowire detectors for visible and telecom wavelengths single photon counting on si3n4 photonic circuits,” Applied Physics Letters?102, 051101 (2013). [Crossref] . P. Rath, O. Kahl, S. Ferrari, F. Sproll, G. Lewes-Malandrakis, D. Brink, K. Ilin, M. Siegel, C. Nebel, and W. Pernice, “Superconducting single-photon detectors integrated with diamond nanophotonic circuits,” Light: Science & Applications?4, e338 (2015). [Crossref] . G. Reithmaier, S. Lichtmannecker, T. Reichert, P. Hasch, K. Müller, M. Bichler, R. Gross, and J. J. Finley, “On-chip time resolved detection of quantum dot emission using integrated superconducting single photon detectors,” Scientific Reports?3, 1901 (2013). [Crossref] . M. Schwartz, E. Schmidt, U. Rengstl, F. Hornung, S. Hepp, and S. L. Portalupi, K. llin, M. Jetter, M. Siegel, and P. Michler, “Fully on-chip single-photon hanbury-brown and twiss experiment on a monolithic semiconductor-superconductor platform,” Nano Letters?18, 6892–6897 (2018). [Crossref] . B. J. Metcalf, N. Thomas-Peter, J. B. Spring, D. Kundys, M. A. Broome, P. C. Humphreys, X.-M. Jin, M. Barbieri, W. Steven Kolthammer, J. C. Gates, B. J. Smith, N. K. Langford, P. G. R. Smith, and I. A. Walmsley, “Multiphoton quantum interference in a multiport integrated photonic device,” Nature Communications?4, 1356 (2013). [Crossref] . A. J. Kerman, E. A. Dauler, J. K. W. Yang, K. M. Rosfjord, V. Anant, K. K. Berggren, G. N. Goltsman, and B. M. Voronov, “Constriction-limited detection efficiency of superconducting nanowire single-photon detectors,” Applied Physics Letters?90, 101110 (2007). [Crossref] . S. Khasminskaya, F. Pyatkov, K. Slowik, S. Ferrari, O. Kahl, V. Kovalyuk, P. Rath, A. Vetter, F. Hennrich, M. M. Kappes, G. Gol’tsman, A. Korneev, C. Rockstuhl, R. Krupke, and W. H. P. Pernice, “Fully integrated quantum photonic circuit with an electrically driven light source,” Nature Photonics?10, 727 (2016). [Crossref] . M. Ejrnaes, A. Casaburi, O. Quaranta, S. Marchetti, A. Gaggero, F. Mattioli, R. Leoni, S. Pagano, and R. Cristiano, “Characterization of parallel superconducting nanowire single photon detectors,” Superconductor Science and Technology?22, 055006 (2009). [Crossref] . A. Rahim, E. Ryckeboer, A. Z. Subramanian, S. Clemmen, B. Kuyken, A. Dhakal, A. Raza, A. Hermans, M. Muneeb, S. Dhoore, Y. Li, U. Dave, P. Bienstman, N. L. Thomas, G. Roelkens, D. V. Thourhout, P. Helin, S. Severi, X. Rottenberg, and R. Baets, “Expanding the silicon photonics portfolio with silicon nitride photonic integrated circuits,” J. Lightwave Technol.?35, 639–649 (2017). [Crossref] . A. W. Elshaari, I. E. Zadeh, A. Fognini, M. E. Reimer, D. Dalacu, P. J. Poole, V. Zwiller, and K. D. J?ns, “On-chip single photon filtering and multiplexing in hybrid quantum photonic circuits,” Nature Communications?8, 379 (2017). [Crossref] [PubMed] . M. Poot and H. X. Tang, “Characterization of optical quantum circuits using resonant phase shifts,” Applied Physics Letters?109, 131106 (2016). [Crossref] . A. W. Elshaari, I. E. Zadeh, K. D. J?ns, and V. Zwiller, “Thermo-optic characterization of silicon nitride resonators for cryogenic photonic circuits,” IEEE Photonics Journal?8, 1–9 (2016). [Crossref] . A. Z. Subramanian, P. Neutens, A. Dhakal, R. Jansen, T. Claes, X. Rottenberg, F. Peyskens, S. Selvaraja, P. Helin, B. D. Bois, K. Leyssens, S. Severi, P. Deshpande, R. Baets, and P. V. Dorpe, “Low-loss singlemode pecvd silicon nitride photonic wire waveguides for 532–900 nm wavelength window fabricated within a cmos pilot line,” IEEE Photonics Journal?5, 2202809 (2013). [Crossref] . I. E. Zadeh, A. W. Elshaari, K. D. J?ns, A. Fognini, D. Dalacu, P. J. Poole, M. E. Reimer, and V. Zwiller, “Deterministic integration of single photon sources in silicon based photonic circuits,” Nano Letters?16, 2289–2294 (2016). [Crossref] [PubMed] . J.-H. Kim, S. Aghaeimeibodi, C. J. K. Richardson, R. P. Leavitt, D. Englund, and E. Waks, “Hybrid integration of solid-state quantum emitters on a silicon photonic chip,” Nano Letters?17, 7394–7400 (2017). [Crossref] [PubMed] . J.-H. Kim, S. Aghaeimeibodi, C. J. K. Richardson, R. P. Leavitt, and E. Waks, “Super-radiant emission from quantum dots in a nanophotonic waveguide,” Nano Letters?18, 4734–4740 (2018). [Crossref] [PubMed] . M. Davanco, J. Liu, L. Sapienza, C.-Z. Zhang, J. V. De Miranda Cardoso, V. Verma, R. Mirin, S. W. Nam, L. Liu, and K. Srinivasan, “Heterogeneous integration for on-chip quantum photonic circuits with single quantum dot devices,” Nature Communications?8, 889 (2017). [Crossref] [PubMed] . A. W. Elshaari, E. Büyük?zer, I. E. Zadeh, T. Lettner, P. Zhao, E. Sch?ll, S. Gyger, M. E. Reimer, D. Dalacu, P. J. Poole, K. D. J?ns, and V. Zwiller, “Strain-tunable quantum integrated photonics,” Nano Letters?18, 7969–7976 (2018). [Crossref] . E. Knill, R. Laflamme, and G. J. Milburn, “A scheme for efficient quantum computation with linear optics,” Nature?409, 46 (2001). [Crossref] . Y. Chen, I. E. Zadeh, K. D. J?ns, A. Fognini, M. E. Reimer, J. Zhang, D. Dalacu, P. J. Poole, F. Ding, V. Zwiller, and O. G. Schmidt, “Controlling the exciton energy of a nanowire quantum dot by strain fields,” Applied Physics Letters?108, 182103 (2016). [Crossref] . 2018 (3). M. Schwartz, E. Schmidt, U. Rengstl, F. Hornung, S. Hepp, and S. L. Portalupi, K. llin, M. Jetter, M. Siegel, and P. Michler, “Fully on-chip single-photon hanbury-brown and twiss experiment on a monolithic semiconductor-superconductor platform,” Nano Letters?18, 6892–6897 (2018). [Crossref] J.-H. Kim, S. Aghaeimeibodi, C. J. K. Richardson, R. P. Leavitt, and E. Waks, “Super-radiant emission from quantum dots in a nanophotonic waveguide,” Nano Letters?18, 4734–4740 (2018). [Crossref] [PubMed] A. W. Elshaari, E. Büyük?zer, I. E. Zadeh, T. Lettner, P. Zhao, E. Sch?ll, S. Gyger, M. E. Reimer, D. Dalacu, P. J. Poole, K. D. J?ns, and V. Zwiller, “Strain-tunable quantum integrated photonics,” Nano Letters?18, 7969–7976 (2018). [Crossref] 2017 (8). M. Davanco, J. Liu, L. Sapienza, C.-Z. Zhang, J. V. De Miranda Cardoso, V. Verma, R. Mirin, S. W. Nam, L. Liu, and K. Srinivasan, “Heterogeneous integration for on-chip quantum photonic circuits with single quantum dot devices,” Nature Communications?8, 889 (2017). [Crossref] [PubMed] J.-H. Kim, S. Aghaeimeibodi, C. J. K. Richardson, R. P. Leavitt, D. Englund, and E. Waks, “Hybrid integration of solid-state quantum emitters on a silicon photonic chip,” Nano Letters?17, 7394–7400 (2017). [Crossref] [PubMed] A. Rahim, E. Ryckeboer, A. Z. Subramanian, S. Clemmen, B. Kuyken, A. Dhakal, A. Raza, A. Hermans, M. Muneeb, S. Dhoore, Y. Li, U. Dave, P. Bienstman, N. L. Thomas, G. Roelkens, D. V. Thourhout, P. Helin, S. Severi, X. Rottenberg, and R. Baets, “Expanding the silicon photonics portfolio with silicon nitride photonic integrated circuits,” J. Lightwave Technol.?35, 639–649 (2017). [Crossref] A. W. Elshaari, I. E. Zadeh, A. Fognini, M. E. Reimer, D. Dalacu, P. J. Poole, V. Zwiller, and K. D. J?ns, “On-chip single photon filtering and multiplexing in hybrid quantum photonic circuits,” Nature Communications?8, 379 (2017). [Crossref] [PubMed] I. Esmaeil Zadeh, J. W. N. Los, R. B. M. Gourgues, V. Steinmetz, G. Bulgarini, S. M. Dobrovolskiy, V. Zwiller, and S. N. Dorenbos, “Single-photon detectors combining high efficiency, high detection rates, and ultra-high timing resolution,” APL Photonics?2, 111301 (2017). [Crossref] W. Zhang, L. You, H. Li, J. Huang, C. Lv, L. Zhang, X. Liu, J. Wu, Z. Wang, and X. Xie, “Nbn superconducting nanowire single photon detector with efficiency over 90% at 1550 nm wavelength operational at compact cryocooler temperature,” Science China Physics, Mechanics & Astronomy?60, 120314 (2017). [Crossref] Y. Shen, N. C. Harris, S. Skirlo, M. Prabhu, T. Baehr-Jones, M. Hochberg, X. Sun, S. Zhao, H. Larochelle, D. Englund, and M. Soljacic, “Deep learning with coherent nanophotonic circuits,” Nature Photonics?11, 441 (2017). [Crossref] J. M. Shainline, S. M. Buckley, R. P. Mirin, and S. W. Nam, “Superconducting optoelectronic circuits for neuromorphic computing,” Phys. Rev. Applied?7, 034013 (2017). [Crossref] 2016 (5). M. Poot and H. X. Tang, “Characterization of optical quantum circuits using resonant phase shifts,” Applied Physics Letters?109, 131106 (2016). [Crossref] A. W. Elshaari, I. E. Zadeh, K. D. J?ns, and V. Zwiller, “Thermo-optic characterization of silicon nitride resonators for cryogenic photonic circuits,” IEEE Photonics Journal?8, 1–9 (2016). [Crossref] Y. Chen, I. E. Zadeh, K. D. J?ns, A. Fognini, M. E. Reimer, J. Zhang, D. Dalacu, P. J. Poole, F. Ding, V. Zwiller, and O. G. Schmidt, “Controlling the exciton energy of a nanowire quantum dot by strain fields,” Applied Physics Letters?108, 182103 (2016). [Crossref] I. E. Zadeh, A. W. Elshaari, K. D. J?ns, A. Fognini, D. Dalacu, P. J. Poole, M. E. Reimer, and V. Zwiller, “Deterministic integration of single photon sources in silicon based photonic circuits,” Nano Letters?16, 2289–2294 (2016). [Crossref] [PubMed] S. Khasminskaya, F. Pyatkov, K. Slowik, S. Ferrari, O. Kahl, V. Kovalyuk, P. Rath, A. Vetter, F. Hennrich, M. M. Kappes, G. Gol’tsman, A. Korneev, C. Rockstuhl, R. Krupke, and W. H. P. Pernice, “Fully integrated quantum photonic circuit with an electrically driven light source,” Nature Photonics?10, 727 (2016). [Crossref] 2015 (1). P. Rath, O. Kahl, S. Ferrari, F. Sproll, G. Lewes-Malandrakis, D. Brink, K. Ilin, M. Siegel, C. Nebel, and W. Pernice, “Superconducting single-photon detectors integrated with diamond nanophotonic circuits,” Light: Science & Applications?4, e338 (2015). [Crossref] 2013 (7). G. Reithmaier, S. Lichtmannecker, T. Reichert, P. Hasch, K. Müller, M. Bichler, R. Gross, and J. J. Finley, “On-chip time resolved detection of quantum dot emission using integrated superconducting single photon detectors,” Scientific Reports?3, 1901 (2013). [Crossref] B. J. Metcalf, N. Thomas-Peter, J. B. Spring, D. Kundys, M. A. Broome, P. C. Humphreys, X.-M. Jin, M. Barbieri, W. Steven Kolthammer, J. C. Gates, B. J. Smith, N. K. Langford, P. G. R. Smith, and I. A. Walmsley, “Multiphoton quantum interference in a multiport integrated photonic device,” Nature Communications?4, 1356 (2013). [Crossref] A. Z. Subramanian, P. Neutens, A. Dhakal, R. Jansen, T. Claes, X. Rottenberg, F. Peyskens, S. Selvaraja, P. Helin, B. D. Bois, K. Leyssens, S. Severi, P. Deshpande, R. Baets, and P. V. Dorpe, “Low-loss singlemode pecvd silicon nitride photonic wire waveguides for 532–900 nm wavelength window fabricated within a cmos pilot line,” IEEE Photonics Journal?5, 2202809 (2013). [Crossref] F. Marsili, V. B. Verma, J. A. Stern, S. Harrington, A. E. Lita, T. Gerrits, I. Vayshenker, B. Baek, M. D. Shaw, R. P. Mirin, and S. W. Nam, “Detecting single infrared photons with 93% system efficiency,” Nature Photonics?7, 210 (2013). [Crossref] C. Schuck, W. H. P. Pernice, and H. X. Tang, “Nbtin superconducting nanowire detectors for visible and telecom wavelengths single photon counting on si3n4 photonic circuits,” Applied Physics Letters?102, 051101 (2013). [Crossref] C. Schuck, W. H. P. Pernice, and H. X. Tang, “Waveguide integrated low noise nbtin nanowire single- photon detectors with milli-hz dark count rate,” Scientific Reports?3, 1893 (2013). [Crossref] V. Kovalyuk, W. Hartmann, O. Kahl, N. Kaurova, A. Korneev, G. Goltsman, and W. H. P. Pernice, “Absorption engineering of nbn nanowires deposited on silicon nitride nanophotonic circuits,” Opt. Express?21, 22683–22692 (2013). [Crossref] [PubMed] 2012 (1). W. H. P. Pernice, C. Schuck, O. Minaeva, M. Li, G. N. Goltsman, A. V. Sergienko, and H. X. Tang, “High-speed and high-efficiency travelling wave single-photon detectors embedded in nanophotonic circuits,” Nature Communications?3, 1325 (2012). [Crossref] 2009 (2). J. L. O’Brien, A. Furusawa, and J. Vuckovic, “Photonic quantum technologies,” Nature Photonics?3, 687 (2009). [Crossref] M. Ejrnaes, A. Casaburi, O. Quaranta, S. Marchetti, A. Gaggero, F. Mattioli, R. Leoni, S. Pagano, and R. Cristiano, “Characterization of parallel superconducting nanowire single photon detectors,” Superconductor Science and Technology?22, 055006 (2009). [Crossref] 2007 (1). A. J. Kerman, E. A. Dauler, J. K. W. Yang, K. M. Rosfjord, V. Anant, K. K. Berggren, G. N. Goltsman, and B. M. Voronov, “Constriction-limited detection efficiency of superconducting nanowire single-photon detectors,” Applied Physics Letters?90, 101110 (2007). [Crossref] 2001 (1). E. Knill, R. Laflamme, and G. J. Milburn, “A scheme for efficient quantum computation with linear optics,” Nature?409, 46 (2001). [Crossref] Aghaeimeibodi, S.. J.-H. Kim, S. Aghaeimeibodi, C. J. K. Richardson, R. P. Leavitt, and E. Waks, “Super-radiant emission from quantum dots in a nanophotonic waveguide,” Nano Letters?18, 4734–4740 (2018). [Crossref] [PubMed] J.-H. Kim, S. Aghaeimeibodi, C. J. K. Richardson, R. P. Leavitt, D. Englund, and E. Waks, “Hybrid integration of solid-state quantum emitters on a silicon photonic chip,” Nano Letters?17, 7394–7400 (2017). [Crossref] [PubMed] Allmaras, J. P.. B. A. Korzh, Q.-Y. Zhao, S. Frasca, J. P. Allmaras, T. M. Autry, E. A. Bersin, M. Colangelo, G. M. Crouch, A. E. Dane, T. Gerrits, F. Marsili, G. Moody, E. Ramirez, J. D. Rezac, J. M. Stevens, E. E. Wollman, D. Zhu, P. D. Hale, K. L. Silverman, R. P. Mirin, S. W. Nam, M. D. Shaw, and K. K. Berggren, “Demonstrating sub-3 ps temporal resolution in a superconducting nanowire single-photon detector,” ArXiv e-prints. Anant, V.. A. J. Kerman, E. A. Dauler, J. K. W. Yang, K. M. Rosfjord, V. Anant, K. K. Berggren, G. N. Goltsman, and B. M. Voronov, “Constriction-limited detection efficiency of superconducting nanowire single-photon detectors,” Applied Physics Letters?90, 101110 (2007). [Crossref] Autry, T. M.. B. A. Korzh, Q.-Y. Zhao, S. Frasca, J. P. Allmaras, T. M. Autry, E. A. Bersin, M. Colangelo, G. M. Crouch, A. E. Dane, T. Gerrits, F. Marsili, G. Moody, E. Ramirez, J. D. Rezac, J. M. Stevens, E. E. Wollman, D. Zhu, P. D. Hale, K. L. Silverman, R. P. Mirin, S. W. Nam, M. D. Shaw, and K. K. Berggren, “Demonstrating sub-3 ps temporal resolution in a superconducting nanowire single-photon detector,” ArXiv e-prints. Baehr-Jones, T.. Y. Shen, N. C. Harris, S. Skirlo, M. Prabhu, T. Baehr-Jones, M. Hochberg, X. Sun, S. Zhao, H. Larochelle, D. Englund, and M. Soljacic, “Deep learning with coherent nanophotonic circuits,” Nature Photonics?11, 441 (2017). [Crossref] Baek, B.. F. Marsili, V. B. Verma, J. A. Stern, S. Harrington, A. E. Lita, T. Gerrits, I. Vayshenker, B. Baek, M. D. Shaw, R. P. Mirin, and S. W. Nam, “Detecting single infrared photons with 93% system efficiency,” Nature Photonics?7, 210 (2013). [Crossref] Baets, R.. A. Rahim, E. Ryckeboer, A. Z. Subramanian, S. Clemmen, B. Kuyken, A. Dhakal, A. Raza, A. Hermans, M. Muneeb, S. Dhoore, Y. Li, U. Dave, P. Bienstman, N. L. Thomas, G. Roelkens, D. V. Thourhout, P. Helin, S. Severi, X. Rottenberg, and R. Baets, “Expanding the silicon photonics portfolio with silicon nitride photonic integrated circuits,” J. Lightwave Technol.?35, 639–649 (2017). [Crossref] A. Z. Subramanian, P. Neutens, A. Dhakal, R. Jansen, T. Claes, X. Rottenberg, F. Peyskens, S. Selvaraja, P. Helin, B. D. Bois, K. Leyssens, S. Severi, P. Deshpande, R. Baets, and P. V. Dorpe, “Low-loss singlemode pecvd silicon nitride photonic wire waveguides for 532–900 nm wavelength window fabricated within a cmos pilot line,” IEEE Photonics Journal?5, 2202809 (2013). [Crossref] Barbieri, M.. B. J. Metcalf, N. Thomas-Peter, J. B. Spring, D. Kundys, M. A. Broome, P. C. Humphreys, X.-M. Jin, M. Barbieri, W. Steven Kolthammer, J. C. Gates, B. J. Smith, N. K. Langford, P. G. R. Smith, and I. A. Walmsley, “Multiphoton quantum interference in a multiport integrated photonic device,” Nature Communications?4, 1356 (2013). [Crossref] Berggren, K. K.. A. J. Kerman, E. A. Dauler, J. K. W. Yang, K. M. Rosfjord, V. Anant, K. K. Berggren, G. N. Goltsman, and B. M. Voronov, “Constriction-limited detection efficiency of superconducting nanowire single-photon detectors,” Applied Physics Letters?90, 101110 (2007). [Crossref] B. A. Korzh, Q.-Y. Zhao, S. Frasca, J. P. Allmaras, T. M. Autry, E. A. Bersin, M. Colangelo, G. M. Crouch, A. E. Dane, T. Gerrits, F. Marsili, G. Moody, E. Ramirez, J. D. Rezac, J. M. Stevens, E. E. Wollman, D. Zhu, P. D. Hale, K. L. Silverman, R. P. Mirin, S. W. Nam, M. D. Shaw, and K. K. Berggren, “Demonstrating sub-3 ps temporal resolution in a superconducting nanowire single-photon detector,” ArXiv e-prints. Bersin, E. A.. B. A. Korzh, Q.-Y. Zhao, S. Frasca, J. P. Allmaras, T. M. Autry, E. A. Bersin, M. Colangelo, G. M. Crouch, A. E. Dane, T. Gerrits, F. Marsili, G. Moody, E. Ramirez, J. D. Rezac, J. M. Stevens, E. E. Wollman, D. Zhu, P. D. Hale, K. L. Silverman, R. P. Mirin, S. W. Nam, M. D. Shaw, and K. K. Berggren, “Demonstrating sub-3 ps temporal resolution in a superconducting nanowire single-photon detector,” ArXiv e-prints. Bichler, M.. G. Reithmaier, S. Lichtmannecker, T. Reichert, P. Hasch, K. Müller, M. Bichler, R. Gross, and J. J. Finley, “On-chip time resolved detection of quantum dot emission using integrated superconducting single photon detectors,” Scientific Reports?3, 1901 (2013). [Crossref] Bienstman, P.. A. 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