國立陽明交通大學 電子物理系
National Yang Ming Chiao Tung University
Department of Electrophysics
NYCU
Faculty
Val Zwiller
Chair professor
PhD: Lund University, 2001
Lab.
https://www.qnp.aphys.kth.se/
Biography
Experience
Interest
Publications
PhD: Lund University, 2001
Undergrad: Strasbourg and Lund University (one semester at UC Berkley)
2023 Founder of Quantum Scopes AB www.quantumscopes.com
2022 Joint appointment at the Karolinska Institutet to develop quantum science for life
sciences
2021 Selection committee of the NWO Spinoza prize
2020 Chief Editor for Quantum Optics at Frontiers in Photonics
2018 Swedish deputy representative to the European Quantum Flagship
2017 Göran Gustafsson prize, Swedish Royal Academy of Sciences
2016 Director of the ADOPT Linnaeus center in advanced optics and photonics
2014 Professorship at KTH
2013 Chief Science Officer at Single Quantum BV, Delft, Netherlands
2012 Chair of Excellence, CEA Grenoble, France. Period: 2012 - 2016
2012 Co - founder of Single Quantum BV, www.singlequantum.com
2011 Associate professorship at TU Delft, Netherlands
2010 Tenured at TU Delft, Netherlands
2005 – 2011 Assistant professor at the Kavli Institute of Nanoscience, Delft University of
Technology
2003 – 2005 Oberassistant, Prof. Imamoglu group, ETH Zurich, Switzerland
2003 Assistant, Prof. Ilegems group, EPFL, Lausanne, Switzerland
2002 – 2003 Marie - Curie fellow, Prof. Benson group, Humboldt University, Berlin, Germany

  1. Spin Qubits and Quantum Computing

  2. Nanofabrication and Quantum Device Development

  3. Cryogenic Quantum Measurement Techniques (Single-Photon Level)

  4. Generation, Manipulation, and Detection of Quantum States of Light

  5. Quantum Entanglement and Quantum Information Theory

2024

  1. Nanowire integration in silica based integrated optical circuits: Limitations and challenges towards quantum Konstantinos Tsimvrakidis, Symeon I Tsintzos, James C Gates, Peter GR Smith, Ali W Elshaari, Val Zwiller, Christos Riziotis Optics & Laser Technology 170, 110276 (2024)

2023

  1. Visualizing Local Superconductivity of NbTiN Nanowires to Probe Inhomogeneity in Single-Photon Detectors. Pei-Jung Chen, Guan-Hao Chen, Robert Vedin, Mattias Jönsson, Samuel Gyger, Stephan Steinhauer, Juhn-Jong Lin, Wen-Hao Chang, Jack Lidmar, Val Zwiller, Chun-Liang Lin ACS Applied Optical Materials (2023)
  2. NbN thin films grown on silicon by molecular beam epitaxy for superconducting detectors. A Iovan, A Pedeches, T Descamps, H Rotella, I Florea, F Semond, V Zwiller Applied Physics Letters 123 (25) (2023)
  3. Wavelength-sensitive superconducting single-photon detectors on thin film lithium niobate waveguides. A Prencipe, S Gyger, MA Baghban, J Zichi, KD Zeuner, T Lettner, Lucas Schweickert, Stephan Steinhauer, Ali W Elshaari, Katia Gallo, Val Zwiller Nano Letters 23 (21), 9748-9752 (2023)
  4. Coexistence of extended and localized states in finite-sized mosaic Wannier-Stark Jun Gao, Ivan M Khaymovich, Adrian Iovan, Xiao-Wei Wang, Govind Krishna, Ze-Sheng Xu, Emrah Tortumlu, Alexander V Balatsky, Val Zwiller, Ali W Elshaari Physical Review B 108, L140202 (2023).
  5. Highly-excited Rydberg excitons in synthetic thin-film cuprous Jacob DeLange, Kinjol Barua, Anindya Sundar Paul, Hamid Ohadi, Val Zwiller, Stephan Steinhauer, Hadiseh Alaeian Scientific Reports 16881, 13 (2023).
  6. Scalable generation and detection of on-demand W states in nanophotonic circuits. Jun Gao, Leonardo Santos, Govind Krishna, Ze-Sheng Xu, Adrian Iovan, Stephan Steinhauer, Otfried Gühne, Philip J Poole, Dan Dalacu, Val Zwiller, Ali W Elshaari Nano Letters (2023).
  7. Superconducting single-photon detectors fabricated via a focused electron beam-induced deposition process. Stephan Steinhauer, Adrian Iovan, Samuel Gyger, Val Zwiller AP Advances 13, 4 (2023).
  8. Temperature measurements in deployed optical fiber networks using single photon optical time domain T Staffas, F Troive, V Zwiller Optics Express 31 (5), 8170-8176 (2023).
  9. Nanowire-based integrated photonics for quantum information and quantum J Chang, J Gao, I Esmaeil Zadeh, AW Elshaari, V Zwiller Nanophotonics 12 (3), 339-358 (2023).
  10. Fractal superconducting nanowire single-photon detectors working in dual bands and their applications in free-space and underwater hybrid K Zou, Z Hao, Y Feng, Y Meng, N Hu, S Steinhauer, S Gyger, V Zwiller, Xiaolong Hu Optics Letters 48 (2), 415-418 (2023).
  11. Nanosecond gating of superconducting nanowire single-photon detectors using cryogenic bias circuitry. T Hummel, A Widhalm, JP Höpker, KD Jöns, J Chang, A Fognini, Stephan Steinhauer, Val Zwiller, Artur Zrenner, Tim J Bartley Optics Express 31 (1), 610-625 (2023).

 

2022

  1. Direct measurement of topological invariants in photonic ZS Xu, J Gao, G Krishna, S Steinhauer, V Zwiller, AW Elshaari Photonics Research 10 (12), 2901-2907 (2022).2
  2. Metropolitan single-photon distribution at 1550 nm for random number Samuel Gyger, Katharina D Zeuner, Thomas Lettner, Sandra Bensoussan, Martin Carlnäs, Liselott Ekemar, Lucas Schweickert, Carl Reuterskiöld Hedlund, Mattias Hammar, Tigge Nilsson, Jonas Almlöf, Stephan Steinhauer, Gemma Vall Llosera, Val Zwiller Applied Physics Letters 121 (19), 194003 (2022)
  3. 2023 roadmap for materials for quantum Christoph Becher, Weibo Gao, Swastik Kar, Christian Marciniak, Thomas Monz, John G Bartholomew, Philippe Goldner, Huanqian Loh, Elizabeth Marcellina, Kuan Eng Johnson Goh, Teck Seng Koh, Bent Weber, Zhao Mu, Jeng-Yuan Tsai, Qimin Yan, Tobias Huber, Sven Höfling, Samuel Gyger, Stephan Steinhauer, Val Zwiller Materials for Quantum Materials for Quantum Technology 11/17 (2022)
  4. Efficient mid-infrared single-photon detection using superconducting NbTiN nanowires with high time resolution in a Gifford-McMahon Jin Chang, Johannes WN Los, Ronan Gourgues, Stephan Steinhauer, SN Dorenbos, Silvania F Pereira, H Paul Urbach, Val Zwiller, Iman Esmaeil Zadeh Photonics Research 10, 1063 (2022)
  5. Materials, devices, and systems for high-speed single-photon JC Bienfang, V Zwiller, S Steinhauer MRS Bulletin, 1-8 (2022)
  6. Observation of Anderson phase in a topological photonic circuit. Jun Gao, Ze-Sheng Xu, Daria A Smirnova, Daniel Leykam, Samuel Gyger, Wen-Hao Zhou, Stephan Steinhauer, Val Zwiller, Ali W Elshaari Physical Review Research 4 (3), 033222 (2022).
  7. Current crowding in nanoscale superconductors within the Ginzburg-Landau model. Mattias Jönsson, Robert Vedin, Samuel Gyger, James A Sutton, Stephan Steinhauer, Val Zwiller, Mats Wallin, Jack Lidmar Physical Review Applied 17 (6), 064046 (2022).
  8. Fractal superconducting nanowires detect infrared single photons with 84% system detection efficiency, 02 polarization sensitivity, and 20.8 ps timing resolution. Y Meng, K Zou, N Hu, L Xu, X Lan, S Steinhauer, S Gyger, V Zwiller, X Hu Acs Photonics 9 (5), 1547-1553 (2022)
  9. 2022 Roadmap on integrated quantum photonics. Galan Moody, Volker J Sorger, Daniel J Blumenthal, Paul W Juodawlkis, William Loh, Cheryl Sorace-Agaskar, Alex E Jones, Krishna C Balram, Jonathan CF Matthews, Anthony Laing, Marcelo Davanco, Lin Chang, John E Bowers, Niels Quack, Christophe Galland, Igor Aharonovich, Martin A Wolff, Carsten Schuck, Neil Sinclair, Marko Lončar, Tin Komljenovic, David Weld, Shayan Mookherjea, Sonia Buckley, Marina Radulaski, Stephan Reitzenstein, Benjamin Pingault, Bartholomeus Machielse, Debsuvra Mukhopadhyay, Alexey Akimov, Aleksei Zheltikov, Girish S Agarwal, Kartik Srinivasan, Juanjuan Lu, Hong X Tang, Wentao Jiang, Timothy P McKenna, Amir H Safavi-Naeini, Stephan Steinhauer, Ali W Elshaari, Val Zwiller, Paul S Davids, Nicholas Martinez, Michael Gehl, John Chiaverini, Karan K Mehta, Jacquiline Romero, Navin B Lingaraju, Andrew M Weiner, Daniel Peace, Robert Cernansky, Mirko Lobino, Eleni Diamanti, Luis Trigo Vidarte, Ryan M Camacho Journal of Physics: Photonics 4 (1), 012501 (2022).
  10. Full-Stokes polarimetric measurements and imaging using a fractal superconducting nanowire single-photon Nan Hu, Yun Meng, Kai Zou, Yifan Feng, Zifan Hao, Stephan Steinhauer, Samuel Gyger, Val Zwiller, Xiaolong Hu Optica 9, 346 (2022).

2021

  1. Giant Rydberg excitons in probed by photoluminescence excitation spectroscopy. Marijn AM Versteegh, Stephan Steinhauer, Josip Bajo, Thomas Lettner, Ariadna Soro, Alena Romanova, Samuel Gyger, Lucas Schweickert, André Mysyrowicz, Val Zwiller Rev. B 104, 245206 (2021).
  2. Strain-Controlled Quantum Dot Fine Structure for Entangled Photon Generation at 1550 nm. Thomas Lettner, Samuel Gyger, Katharina D Zeuner, Lucas Schweickert, Stephan Steinhauer, Carl Reuterskiöld Hedlund, Sandra Stroj, Armando Rastelli, Mattias Hammar, Rinaldo Trotta, Klaus D Jöns, Val Zwiller Nano letters 21, 10501 (2021).
  3. Efficient and versatile toolbox for analysis of time-tagged measurements. Zuzeng Lin, Lucas Schweickert, Samuel Gyger, Klaus D Jöns, Val Zwiller Journal of Instrumentation 16, T08016 (2021).
  4. On-demand generation of entangled photon pairs in the telecom c-band with InAs quantum dots. Katharina D Zeuner, Klaus D Jons, Lucas Schweickert, Carl Reuterskiöld Hedlund, Carlos Nuñez Lobato, Thomas Lettner, Kai Wang, Samuel Gyger, Eva Schöll, Stephan Steinhauer, Mattias Hammar, Val Zwiller ACS Photonics 8, 2337 (2021).
  5. Deterministic integration of hBN emitter in silicon nitride photonic waveguide. Ali W Elshaari, Anas Skalli, Samuel Gyger, Martin Nurizzo, Lucas Schweickert, Iman Esmaeil Zadeh, Mikael Svedendahl, Stephan Steinhauer, Val Zwiller Advanced Quantum Technologies 4, 2100032 (2021)
  6. Superconducting nanowire single-photon detectors: A perspective on evolution, state-of-the-art, future developments, and Iman Esmaeil Zadeh, J Chang, Johannes WN Los, Samuel Gyger, Ali W Elshaari, Stephan Steinhauer, Sander N Dorenbos, Val Zwiller Applied Phys. Lett. 118, 190502 (2021).
  7. Resonance fluorescence from waveguide-coupled, strain-localized, two-dimensional quantum emitters. Carlos Errando-Herranz, Eva Schöll, Raphaël Picard, Micaela Laini, Samuel Gyger, Ali W Elshaari, Art Branny, Ulrika Wennberg, Sebastien Barbat, Thibaut Renaud, Marc Sartison, Mauro Brotons-Gisbert, Cristian Bonato, Brian D Gerardot, Val Zwiller, Klaus D Jöns ACS Photonics 8, 1069 (2021).
  8. Telecom-wavelength InAs QDs with low fine structure splitting grown by droplet epitaxy on GaAs(111) A vicinal substrates. A Tuktamyshev, A Fedorov, S Bietti, S Vichi, KD Zeuner, Klaus D Jöns, D Chrastina, S Tsukamoto, Val Zwiller, M Gurioli, S Sanguinetti Appl. Phys. Lett. 118, 133102 (2021).
  9. X-ray induced secondary particle counting with thin NbTiN nanowire superconducting detector. Artur Branny, Pierre Didier, Julien Zichi, Iman E Zadeh, Stephan Steinhauer, Val Zwiller, Ulrich Vogt IEEE Transactions on Applied Superconductivity 31, 1 (2021).
  10. Progress on large-scale superconducting nanowire single-photon Stephan Steinhauer, Samuel Gyger, Val Zwiller Appl. Phys. Lett. 118, 100501 (2021).
  11. Reconfigurable photonics with on-chip single-photon Samuel Gyger, Julien Zichi, Lucas Schweickert, Ali W Elshaari, Stephan Steinhauer, Saimon F Covre da Silva, Armando Rastelli, Val Zwiller, Klaus D Jöns, Carlos Errando-Herranz Nature Communications 12, 1 (2021).
  12. Detecting telecom single photons with 99.5− 2.07+ 0.5% system detection efficiency and high time J Chang, JWN Los, JO Tenorio-Pearl, N Noordzij, R Gourgues, A Guardiani, JR Zichi, SF Pereira, HP Urbach, Val Zwiller, SN Dorenbos, I Esmaeil Zadeh APL Photonics 6, 036114 (2021).
  13. Quantum teleportation with imperfect quantum dots. Francesco Basso Basset, Francesco Salusti, Lucas Schweickert, Michele B Rota, Davide Tedeschi, Saimon F Covre da Silva, Emanuele Roccia, Val Zwiller, Klaus D Jöns, Armando Rastelli, Rinaldo Trotta NPJ Quantum Information 7, 1 (2021).
  14. Engineering the Luminescence and Generation of Individual Defect Emitters in Atomically Thin MoS2. Julian Klein, Lukas Sigl, Samuel Gyger, Katja Barthelmi, Matthias Florian, Sergio Rey, Takashi Taniguchi, Kenji Watanabe, Frank Jahnke, Christoph Kastl, Val Zwiller, Klaus D Jöns, Kai Müller, Ursula Wurstbauer, Jonathan J Finley, Alexander W CS Photonics 8, 669 (2021).
  15. Quantum teleportation with imperfect quantum Francesco Basso Basset, Francesco Salusti, Lucas Schweickert, Michele B Rota, Davide Tedeschi, Saimon F Covre da Silva, EmanueleRoccia, Val Zwiller, Klaus D Jöns, Armando Rastelli, Rinaldo Trotta NPJ Quantum Information 7, 1 (2021).

2020

  1. Hybrid integrated quantum photonic AW Elshaari, W Pernice, K Srinivasan, O Benson, V Zwiller Nature Photonics 14 (5), 336 (2020).
  2. Crux of using the cascaded emission of a three-level quantum ladder system to generate indistinguishable photons. Eva Schöll, Lucas Schweickert, Lukas Hanschke, Katharina D Zeuner, Friedrich Sbresny, Thomas Lettner, Rahul Trivedi, Marcus Reindl, Saimon Filipe Covre Da Silva, Rinaldo Trotta, Jonathan J Finley, Jelena Vučković, Kai Müller, Armando Rastelli, Val Zwiller, Klaus D Jöns Phys. Rev. Lett. 125, 233605 (2020).
  3. Dispersion engineering of superconducting waveguides for multi-pixel integration of single-photon detectors. AW Elshaari, A Iovan, A Gyger, IE Zadeh, J Zichi, L Yang, S Steinhauer, V Zwiller APL Photonics 5, 111301 (2020).
  4. Temporal array with superconducting nanowire single-photon detectors for photon-number- resolution. M Jönsson, M Swillo, S Gyger, V Zwiller, G Björk Rev. A. 102, 052616 (2020).
  5. Origin of Antibunching in Resonance Fluorescence. L Hanschke, L Schweickert, J C López Carreño, E Schöll, K D Zeuner, T Lettner, E Zubizarreta Casalengua, M Reindl, S F Covre da Silva, R Trotta, J J Finley, A Rastelli, E del Valle, F P Laussy, V Zwiller, K Müller, K D Jöns Physical Review Letters 125 (17), 170402 (2020).
  6. Atomistic defects as single-photon emitters in atomically thin MoS2. K Barthelmi, J Klein, A Hötger, L Sigl, F Sigger, E Mitterreiter, S Rey, Samuel Gyger, M Lorke, M Florian, F Jahnke, T Taniguchi, K Watanabe, Val Zwiller, KD Jöns, U Wurstbauer, C Kastl, A Weber-Bargioni, JJ Finley, K Müller, AW Holleitner Applied Physics Letters 117 (7), 070501 (2020).
  7. Efficient single-photon detection with 7 ps time resolution for photon correlation measurements. IE Zadeh, JWN Los, RBM Gourgues, J Chang, AW Elshaari, J Zichi, YJ van Staaden, JPE Swens, N Kalhor, A Guardiani, Y Meng, K Zou, S Dobrovolskiy, A Fognini, DR Schaart, D Dalacu, PJ Poole, ME Reimer, X Hu, SF Pereira, V Zwiller, S Dorenbos ACS Photonics 7 (7), 1780 (2020).
  8. NbTiN thin films for superconducting photon detectors on photonic and two-dimensional S Steinhauer, L Yang, S Gyger, T Lettner, C Errando-Herranz, K D Jöns, M Amin Baghban, K Gallo, J Zichi, V Zwiller Applied Physics Letters 116 (17), 171101 (2020).
  9. Rydberg excitons in Cu 2 O microcrystals grown on a silicon platform. S Steinhauer, MAM Versteegh, S Gyger, AW Elshaari, B Kunert, A Mysyrowicz, V Zwiller Communications Materials 1 (1), 1 (2020).
  10. Wavelength-resolved Purcell enhancement of PbS/CdS quantum dots measured on a chip-based platform. L Elsinger, R Gourgues, I E Zadeh, J Maes, A Guardiani, G Bulgarini, S F Pereira, S N Dorenbos, V Zwiller, Z Hens, D Van Thourhout Photonic and Phononic Properties of Engineered Nanostructures 11289, 1128914 (2020).
  11. Fractal superconducting nanowire avalanche photodetector at 1550 nm with 60% system detection efficiency and 1.05 polarization sensitivity. Y Meng, K Zou, N Hu, X Lan, L Xu, J Zichi, S Steinhauer, V Zwiller, X Hu Optics Letters 45 (2), 471 (2020).
  12. Passively stable distribution of polarisation entanglement over 192 km of deployed optical S Wengerowsky, S Koduru Joshi, F Steinlechner, J Zichi, B Liu, T Scheidl, S Dobrovolskiy, R van der Molen, JWN Los, V Zwiller, MAM Versteegh, A Mura, D Calonico, M Inguscio, A Zeilinger, A Xuereb, R Ursin NPJ Quantum Information 6 (1), 1 (2020).

2019

  1. Multimode-fiber-coupled superconducting nanowire single-photon detectors with high detection efficiency and time resolution. J Chang, IE Zadeh, JWN Los, J Zichi, A Fognini, M Gevers, S Dorenbos, SF Pereira, P Urbach, V Zwiller Applied Optics 58 (36), 9803 (2019).
  2. GaAs Quantum Dot in a Parabolic Microcavity Tuned to 87Rb D1. T Lettner, KD Zeuner, E Schöll, H Huang, S Scharmer, SF Covre da Silva, S Gyger, L Schweickert, A Rastelli, KD Jöns, V Zwiller ACS photonics 7 (1), 29 (2019).
  3. Entanglement swapping with photons generated on demand by a quantum FB Basset, MB Rota, C Schimpf, D Tedeschi, KD Zeuner, SFC da Silva, M Reindl, V Zwiller, KD Jöns, A Rastelli, R Trotta Physical Review Letters 123 (16), 160501 (2019).
  4. Optimizing the stoichiometry of ultrathin NbTiN films for high-performance superconducting nanowire single-photon detectors. J Zichi, J Chang, S Steinhauer, K von Fieandt, JWN Los, G Visser, N Kalhor, T Lettner, AW Elshaari, IE Zadeh, V Zwiller Optics Express 27 (19), 26579 (2019).
  5. Superconducting nanowire single photon detectors operating at temperature from 4 to 7 K. R Gourgues, JWN Los, J Zichi, J Chang, N Kalhor, G Bulgarini, S Dorenbos, V Zwiller, IE Zadeh Optics Express 27 (17), 24601 (2019).
  6. Integration of colloidal PbS/CdS quantum dots with plasmonic antennas and superconducting detectors on a silicon nitride photonic platform. L Elsinger, R Gourgues, IE Zadeh, J Maes, A Guardiani, G Bulgarini, SF Pereira, S Dorenbos, V Zwiller, Z Hens, D Van Thourhout Nano letters 19 (8), 5452 (2019).
  7. Dephasing free photon entanglement with a quantum dot. A Fognini, A Ahmadi, M Zeeshan, JT Fokkens, SJ Gibson, N Sherlekar, SJ Daley, D Dalacu, PJ Poole, KD Jöns, V Zwiller, ME Reimer ACS Photonics 6 (7), 1656 (2019).
  8. Large diameter superconducting nanowire single photon detectors (SNSPDs) with high efficiency and high time resolution. J Chang, IE Zadeh, JWN Los, J Zichi, V Zwiller Quantum Optics and Photon Counting 11027, 1102705 (2019).
  9. Reconfigurable frequency coding of triggered single photons in the telecom C–band. S Gyger, KD Zeuner, KD Jöns, AW Elshaari, M Paul, S Popov, C Reuterskiöld Hedlund, M Hammar, O Ozolins, V Zwiller Optics express 27 (10), 14400 (2019).
  10. Timing properties of superconducting nanowire single-photon detectors. X Hu, K Zou, N Hu, Y Meng, L Xu, X Lan, X Chi, C Gu, Y Cheng, H Wu, H Liu, J Zichi, V Zwiller Quantum Optics and Photon Counting 2019 11027, 1102704 (2019).
  11. Entanglement distribution over a 96-km-long submarine optical S Wengerowsky, SK Joshi, F Steinlechner, J Zichi, S Dobrovolskiy, R van der Molen, JWN Los, V Zwiller, MAM Versteegh, A Mura, D Calonico, M Inguscio, H Hübel, L Bo, T Scheidl, A Zeilinger, A Xuereb, R Ursin Proceedings of the National Academy of Sciences 116 (14), 6684 (2019).
  12. A compact 4 K cooling system for superconducting nanowire single photon detectors. MJ Hills, TW Bradshaw, S Dobrovolskiy, S Dorenbos, NR Gemmell, B Green, RM Heath, T Rawlings, K Tsimvrakidis, V Zwiller, MR Crook, RH Hadfield Materials Science and Engineering 502 (1), 012193 (2019).
  13. Resonance fluorescence of gaas quantum dots with near-unity photon indistinguishability. E Schöll, L Hanschke, L Schweickert, KD Zeuner, M Reindl, Saimon Filipe Covre da Silva, T Lettner, R Trotta, JJ Finley, K Müller, A Rastelli, V Zwiller, KD Jöns Nano letters 19 (4), 2404 (2019).
  14. Superconducting nanowire single-photon detectors at the infrared spectrum range: detection efficiency and timing X Hu, N Hu, Y Meng, K Zou, L Xu, X Lan, X Chi, C Gu, Y Cheng, H

 

Wu, J Zichi, V Zwiller SPIE 10917, Terahertz, RF, Millimeter, and Submillimeter-Wave Technology and Applications XII, 109171K (2019).

  1. Improvement of the critical temperature of NbTiN films on III-nitride substrates. H Machhadani, J Zichi, C Bougerol, S Lequien, JL Thomassin, N Mollard, A Mukhtarova, V Zwiller, J-M Gérard, E Monroy Superconductor Science and Technology 32 (3), 035008 (2019).
  2. Controlled integration of selected detectors and emitters in photonic integrated R Gourgues, IE Zadeh, AW Elshaari, G Bulgarini, JWN Los, J Zichi, D Dalacu, PJ Poole, S Dorenbos, V Zwiller Optics express 27 (3), 3710 (2019).

2018

1. All-photonic quantum teleportation using on-demand solid-state quantum emitters. M Reindl, D Huber, C Schimpf, SF Covre da Silva, MB Rota, H Huang, V Zwiller, KD Jöns, A Rastelli, R Trotta Science advances 4 (12), 1255 (2018).
2. Strain-tunable quantum integrated photonics. AW Elshaari, E Büyüközer, IE Zadeh, T Lettner, P Zhao, E Schöll, S Gyger, ME Reimer, D Dalacu, PJ Poole, KD Jöns, V Zwiller Nano letters 18 (12), 7969 (2018).
3. Nanowire quantum dots tuned to atomic resonances. L Leandro, CP Gunnarsson, R Reznik, KD Jöns, I Shtrom, A Khrebtov, T Kasama, V Zwiller, G Cirlin, N Akopian Nano letters 18 (11), 7217 (2018).
4. Fractal superconducting nanowire single-photon detectors with reduced polarization sensitivity. X Chi, K Zou, C Gu, J Zichi, Y Cheng, N Hu, X Lan, S Chen, Z Lin, V Zwiller, X Hu Optics letters 43 (20), 5017 (2018).
5. Universal fine-structure eraser for quantum dots. A Fognini, A Ahmadi, SJ Daley, ME Reimer, V Zwiller Optics express 26 (19), 24487 (2018).
6. Experimental demonstration of superconducting nanowire single-photon detectors integrated with current reservoirs. Y Cheng, X Chi, C Gu, K Zou, J Zichi, S Chen, H Liu, V Zwiller, X Hu Conference on Lasers and Electro-Optics/Pacific Rim, W2G. 6 (2018).
7. Exciton fine structure and lattice dynamics in InP/ZnSe Core/Shell quantum dots. A Brodu, MV Ballottin, J Buhot, EJ van Harten, D Dupont, A La Porta, PT Prins, MD Tessier, MAM Versteegh, V Zwiller, S Bals, Z Hens, FT Rabouw, PCM Christianen, C de Mello Donega, D Vanmaekelbergh ACS photonics 5 (8), 3353 (2018).
8. Polarization-insensitive fiber-coupled superconducting-nanowire single photon detector using a high-index dielectric capping layer. A Mukhtarova, L Redaelli, D Hazra, H Machhadani, S Lequien, M Hofheinz, J-L Thomassin, F Gustavo, J Zichi, V Zwiller, E Monroy, JM Gérard Optics express 26 (13), 17697 (2018).
9. Hybrid quantum photonic integrated circuits. AW Elshaari, IE Zadeh, A Fognini, D Dalacu; PJ Poole, ME Reimer, V Zwiller, KD Jöns 2018 International Conference Laser Optics (ICLO), 439 (2018).
10. A stable wavelength-tunable triggered source of single photons and cascaded photon pairs at the telecom C-band. KD Zeuner, M Paul, T Lettner, C Reuterskiöld Hedlund, L Schweickert, S Steinhauer, L Yang, J Zichi, M Hammar, KD Jöns, V Zwiller Applied Physics Letters 112 (17), 17310 (2018).
11. Bright single InAsP quantum dots at telecom wavelengths in position-controlled InP nanowires: the role of the photonic waveguide. S Haffouz, KD Zeuner, D Dalacu, PJ Poole, J Lapointe, D Poitras,K Mnaymneh, X Wu, M Couillard, M Korkusinski, E Schöll, KD Jöns, V Zwiller, RL Williams Nano letters 18 (5), 3047 (2018).
12. On-demand generation of background-free single photons from a solid-state source. L Schweickert, KD Jöns, KD Zeuner, SF Covre da Silva, H Huang, T Lettner, M Reindl, J Zichi, R Trotta, A Rastelli, V Zwiller Applied Physics Letters 112 (9), 093106120 (2018).
13. Universal finestructure eraser for quantum dots. A Fognini, A Ahmadi, SJ Daley, ME Reimer, V Zwiller Optics express 26 (19), 24487-24496 (2018).
14. Advanced Superconducting Nanowire Single Photon Detectors for Photonic Quantum Technologies. JM Gérard, A Mukhtarova, L Redaelli, H Machhadani, E Monroy, V Zwiller Multidisciplinary Digital Publishing Institute Proceedings 2 (13), 1096 (2018).
15. On-demand generation of background-free single photons from a solid-state source. L Schweickert, KD Jöns, KD Zeuner, SF Covre da Silva, H Huang, T Lettner, M Reindl, J Zichi, R Trotta, A Rastelli, V Zwiller Applied Physics Letters 112, 093106 (2018). (Featured article

2017

1.Single-photon detectors combining high efficiency, high detection rates, and ultra-high timing resolution. IE Zadeh, JWN Los, RBM Gourgues, V Steinmetz, S Dobrovolskiy, V Zwiller, S Dorenbos APL Photonics 111301, 2 (2017)

2.A miniaturized 4 K platform for superconducting infrared photon counting detectors. N Gemmell, M Hills, T Bradshaw, T Rawlings, B Green, R Heath, K Tsimvrakidis, S Dobrovolskiy, V Zwiller, S Dorenbos, M Crook, R Hadfield Superconductor Science and Technology 11LT01, 30 (2017).

3.On-chip single photon filtering and multiplexing in hybrid quantum photonic circuits. AW Elshaari, IE Zadeh, A Fognini, ME Reimer, D Dalacu, PJ Poole, V Zwiller, KD Jöns Nature Communications 379, 8 (2017).

4.Two-photon interference from two blinking quantum emitters. KD Jöns, K Stensson, M Reindl, M Swillo, Y Huo, V Zwiller, A Rastelli, R Trotta, G Björk Physical Review B 075430, 96 (2017).

5.Phonon-assisted two-photon interference from remote quantum emitters. M Reindl, KD Jöns, D Huber, C Schimpf, Y Huo, V Zwiller, A Rastelli, R Trotta Nano letters 4090–4095, 17(7) (2017).

6.Bright nanoscale source of deterministic entangled photon pairs violating Bell’s inequality. KD Jöns, L Schweickert, MAM Versteegh, D Dalacu, PJ Poole, A Gulinatti, A Giudice, V Zwiller, ME Reimer Scientific Reports 1700, 7 (2017).

7.Design of polarization-insensitive superconducting single photon detectors with high-index dielectrics. L Redaelli, V Zwiller, E Monroy, JM Gérard Superconductor Science and Technology 035005, 30 (2017).

2016
1.Ultrafast Coherent Manipulation of Trion in Site-Controlled Nanowire Quantum Dot. KG Lagoudakis, PL McMahon, C Dory, KA Fischer, K Muller, V Borish, D Dalacu, P Poole, ME Reimer, V Zwiller, Y Yamamoto, J Vuckovic Optica 1430-1435, 3(12), (2016).=
2.Spotlight Summary: Superconducting nanowire single photon detector at 532 nm and demonstration in satellite laser ranging. V Zwiller Spotlight on Optics (Highlighted Articles from OSA Journals) (2016).
3.Amplitude distributions of dark counts and photon counts in NbN superconducting single-photon detectors integrated with the HEMT readout. J Kitaygorsky, W Słysz, R Shouten, S Dorenbos, E Reiger, V Zwiller, R Sobolewski Physica C: Superconductivity and its Applications 33-39, 532
(2016).
4.Initialization of a spin qubit in a site-controlled nanowire quantum dot. K Lagoudakis, P McMahon, K Fischer, S Puri, K Mueller, D Dalacu, P Poole, ME Reimer, V Zwiller, Y Yamamoto, J Vuckovic New Journal of Physics (2016).
5.Design of broadband high-efficiency superconducting-nanowire single photon detectors. L Redaelli, G Bulgarini, S Dobrovolskiy, S Dorenbos, V Zwiller, E Monroy, JM Gérard Superconductor Science and Technology (2016).
6.Overcoming power broadening of the quantum dot emission in a pure wurtzite nanowire. ME Reimer, G Bulgarini, A Fognini, R Heeres, B Witek, M Versteegh, A Rubino, T Braun, M Kamp, S Höfling, D Dalacu, J Lapointe, P Poole, V Zwiller Physical Review B 195316, 93 (2016).
7.Thermo-optic characterization of silicon nitride resonators for cryogenic photonic circuits. AW Elshaari, I Esmaeil Zadeh, KD Jöns, V Zwiller IEEE Photonics, 2701009, 8 (2016).
8.Controlling the exciton energy of a nanowire quantum dot by strain fields. Y Chen, IE Zadeh, K D Jöns, J Zhang, M Reimer, D Dalacu, P Poole, F Ding, V Zwiller, O Schmidt Applied Physics Letters 182103, 108 (2016).
9.High Yield Growth and Characterization of <100> InP p-n Diode Nanowires. A Cavalli, J Wang, I Esmaeil Zadeh, M Reimer, MA Verheijen, M Soini, S Plissard, V Zwiller, J Haverkort, EPAM Bakkers Nano Letters (2016).
10.Deterministic integration of single photon sources in silicon based photonic circuits. IE Zadeh, AW Elshaari, KD Jöns, A Fognini, D Dalacu, PJ Poole, ME Reimer, V Zwiller Nano letters 2289, 16 (2016).
11.Photon Cascade from a Single Crystal Phase Nanowire Quantum Dot. MB Bavinck, KD Jöns, M
Zieliński, G Patriarche, JC Harmand, N Akopian, V Zwiller Nano letters 1081, 16 (2016).
2015
1.Violation of Bell’s inequality with a quantum dot in a tapered nanowire waveguide. KD Jöns, L Schweickert, MAM Versteegh, D Dalacu, PJ Poole, A Gulinatti, A Giudice, V Zwiller, ME Reimer arXiv:1510.03897 (2015).
2.Single pairs of time-bin-entangled photons. MAM Versteegh, ME Reimer, AA Van den Berg, G Juska, V Dimastrodonato, A Gocalinska, E Pelucchi, V Zwiller Physical Review A 033802, 92 (2015).
2014
1.Observation of strongly entangled photon pairs from a nanowire quantum dot. MAM Versteegh, ME Reimer, KD Joens, D Dalacu, PJ Poole, A Gulinatti, A Giudice, V Zwiller Nature Communcations 5298, 5 (2014).
2.High-quality NbN nanofilms on a GaN/AlN heterostructure. D Sam-Giao, S Pouget, C Bougerol, E Monroy, A Grimm, S Jebari, M Hofheinz, JM Gerard, V Zwiller AIP Advances 107123, 4 (2014). Far field emission profile of pure wurtzite InP nanowires G Bulgarini, D Dalacu, PJ Poole, J Lapointe, ME Reimer, V Zwiller Applied Physics Letters 191113, 105 (2014).
3.Subwavelength focusing of light with orbital angular momentum. RW Heeres, V Zwiller Nanoletters 4598, 14 (2014).
4.Nanowire waveguides launching single photons in a Gaussian mode for ideal fiber-coupling. G Bulgarini, ME Reimer, M Bouwes Bavinck, KD Joens, D Dalacu, PJ Poole, EPAM Bakkers, V
Zwiller Nanoletters 4102, 14 (2014).
5. On-chip quantum interference between silicon photon-pair sources. JW Silverstone, D Bonneau, K Ohira, N Suzuki, H Yoshida, N Iizuka, M Ezaki, CM Natarajan, MG Tanner, RH Hadfield, V  Zwiller, GD Marshall, JG Rarity, JL O’Brien, MG Thompson Nature Photonics 104, 8 (2014).
6. Photocurrent generation in semiconducting and metallic carbon nanotubes. M Barkelid, V Zwiller  Nature Photonics 47, 8 (2014).
7. A light-hole exciton in a quantum dot. YH Huo, BJ Witek, S Kumar, JR Cardenas, N Akopian, R Singh, E Zallo, R Grifone, D Kriegner, R Trotta, J Stangl, V Zwiller, G Bester, A Rastelli, OG Schmidt Nature Physics 46, 10 (2014).
2013
1. Gallium Arsenide Quantum Photonic Waveguide Circuits. J Wang, A Santamato, P Jiang, D Bonneau, E Engin, JW Silverstone, M Lermer, J Beetz, M Kamp, S Höfling, MG Tanner, CM Natarajan, RH Hadfield, S Dorenbos, V Zwiller, JL O’Brien, MG Thompson Special Issue of Optics Communications on Nonlinear Quantum Photonics (2013).
2. Quantum interference of surface plasmons. RW Heeres, LP Kouwenhoven, V Zwiller Nature Nanotechnology 719, 8 (2013).
3. Excitons confined in single semiconductor quantum rings: observation and manipulation of Aharonov-Bohm type oscillations. F Ding, B Li, FM Peeters, A Rastelli, V Zwiller, OG Schmidt Physics of Quantum Rings, Springer (2013). Book chapter
4. Singlet oxygen luminescence detection with fibre-coupled superconducting nanowire single photon detectors. NR Gemmell, A Mc Carthy, B Liu, MG Tanner, SD Dorenbos, V Zwiller, MS Patterson, GS Buller, BC Wilson, RH Hadfield Optics Express 5005, 21 (2013). Highlighted in Nature Photonics
5. Kilometer range, high resolution depth imaging via 1560 nm wavelength single-photon detection. A Mc Carthy, NJ Krichel, NR Gemmel, X Ren, MG Tanner, SD Dorenbos, V Zwiller, RH Hadfield, GS Buller Optics Express 8904, 21 (2013).
6. Large and tunable photo-thermoelectric effect in single-layer MoS2. M Buscema, M Barkelid, V  Zwiller, HSJ van der Zant, GA Steele, A Castellanos-Gomez Nanoletters 358, 13 (2013).
7. Quantum detector tomography of a time-multiplexed superconducting nanowire single-photon detector at telecom wavelengths. CM Natarajan, L Zhang, H Coldenstrodt-Ronge, G Donati, S Dorenbos, V Zwiller, IA Walmsley, RH Hadfield Optics Express 893, 21 (2013).
8. Capacitive readout and gating of superconducting single photon detectors. H Azzouz, RW Heeres, S Dorenbos, RN Schouten, V Zwiller Review of Scientific Instruments 053108, 84 (2013).
9. Photon pair generation in a Silicon micro-ring resonator with reverse bias enhancement. E Engin, D Bonneau, CM Natarajan, AS Clark, MG Tanner, RH Hadfield, SN Dorenbos, V Zwiller, K Ohira, N Suzuki, H Yoshida, N Iizuka, M Ezaki, JL O’Brien, MG Thompson Optics Express 27826, 21 (2013).
10. Single Carbon Nanotube Photovoltaic Device. M Barkelid, V Zwiller Journal of Applied Physics 164320, 114 (2013).