Poster Session 1
SPW 2026
Poster Session 1
Monday & Tuesday
| No. | Presenting Author | Affiliation | Title | Paper |
|---|---|---|---|---|
| 1 | Lara Couronné | Quandela/C2N - Université Paris-Saclay, | Optimizing the Generation of Multiphotonic Entangled Graph States | Open paper |
| 2 | Etienne Bargel | Université Paris-Saclay, C2N, CNRS, | QD spin-mediated tailoring of the photon-number coherence of vacuum—one-photon qubits | Open paper |
| 3 | Emanuele Marino | University of Palermo | Self-Assembled Nanocrystal Microresonators: From Colloidal Photonics to Future Platforms for Quantum Light | Open paper |
| 4 | Benjamin Viollet | Neel Institute | Strain-Tuning a Quantum Dot in Nanopost with a Phase-Change Shell: Towards Broadly-Tuneable Single-Photon Sources | Open paper |
| 5 | Samuel Huber | Centre de nanosciences et de nanotechnologies, Quandela | Micropillar-to-Fiber Mode-Matching for Improved Single-Photon Collection Efficiency | Open paper |
| 6 | Tigran Mansuryan | XLIM, UMR 7252 CNRS, University of Limoges | 1 GHz Picosecond Laser Source at 925 nm for the Excitation of Single-Photon Quantum Dot Emitters | Open paper |
| 7 | Kuntheak Kheng | Univ. Grenoble-Alpes /CEA-Grenoble/PHELIQS | Single-Photon Emitter in the Blue-Green Spectral Range with a Nanowire Quantum Dot: Brightness and Integration | Open paper |
| 8 | Archi Gupta | University of Geneva | Rare earth ions for creation of deterministic single photons | Open paper |
| 9 | Leon Shterengas | Stony Brook University | Epitaxial growth of low surface density InAs/GaAs quantum dots emitting near 1.5 µm | Open paper |
| 10 | Andrea Barbiero | Toshiba Europe Ltd | Electrically contacted bullseye resonators for efficient telecom-band quantum light generation | Open paper |
| 11 | Etienne Bargel | Université Paris-Saclay, C2N, CNRS, | Signatures of spin-optical phase entanglement generated by a spin-photon quantum-dot interface | Open paper |
| 12 | Gabriela Carla Silva Militani | University of Innsbruck | Collective Driving of Many-Photon Quantum States | Open paper |
| 13 | Alena Kimpel | Kaunas University of Technology, | Isophtaloylbisdibenzothiophene: a New Structural Moiety for the Engineering of Organic Triplet Emitters | Open paper |
| 14 | Mariia Stanitska | Centre for Physical Sciences and Technology, | Development of Ultrafast Benzothiadiazole-based Fluorophores for High-speed Optoelectronics | Open paper |
| 15 | Margarita Anna Zommere | Institute of Solid State Physics, University of Latvia | Cavity-Enhanced Single-Photon Emission from Organic Molecules in Polymeric Pillar Microcavities | Open paper |
| 16 | Deeksha Gupta | University of Geneva | Single-Photon Emitter Based on Thulium-doped Lithium Niobate | Open paper |
| 17 | Marco Lopez | PTB | Defect assignment of hexagonal boron nitride quantum emitters in nanoflakes | Open paper |
| 18 | Matteo Ziino | University of Turin, INFN and INRiM | Novel 990 nm Emission Peak from Fluorine Implanted Diamond | Open paper |
| 19 | Euan Bathgate | University of Strathclyde (CNQO) | On-Demand Single-Photon Emission via Hot Electron Recombination in GaAs/AlGaAs | Open paper |
| 20 | Stefan Kück | Physikalisch Technische Bundesanstalt | Characterization of optically activated magnesium vacancy centers in bulk diamond | Open paper |
| 21 | Eun Chae Ha | Korea Research Institute of Standards and Science | 64-channel Binary-Division Multiplexing of Heralded Photons for Enhanced Generation of Entanglement | Open paper |
| 22 | Xavier Barcons Planas | Humboldt-Universität zu Berlin & German Aerospace Center | Temporal synchronization of multiple SPDC photon generation events | Open paper |
| 23 | Sébastien Février | University of Limoges XLIM UMR CNRS 7252 | Mid-Infrared SPDC in Lithium Niobate Waveguide | Open paper |
| 24 | Chenqi Qian | Imperial College London | Spatiotemporal mode isolation in SPDC using a pulse-pumped triply resonant cavity | Open paper |
| 25 | Indranil Maiti | Nicolaus Copernicus University | Joint Optimization of Source and Detection System in Entanglement Based BB84 Protocol | Open paper |
| 26 | Michael Grayson | NIST | Cavity-Enhanced Heralded Single-Photon Source | Open paper |
| 27 | Aishi Barua | Department of Physics, Paderborn University | Photon-Number-Resolved Joint Spectral Measurement of a Spontaneous Parametric Down-Conversion Source | Open paper |
| 28 | Akriti Raj | University of Saarland | Entanglement Distribution Over a 29 km Actively Polarization-Stabilized Metropolitan Fiber Link | Open paper |
| 29 | Thomas Cumming | Imperial College London | Theory of High-Gain Cavity-Enhanced Parametric Down-Conversion | Open paper |
| 30 | Mehmet Kanar | TÜBİTAK BİLGEM | Pseudo-Photon-Number-Resolving Heralding for Improved Single-Photon Character in a Type-II SPDC Source | Open paper |
| 31 | Hugh Barrett | The University of Bristol | Optimising Four-Wave Mixing with Temporal Pulse Shaping | Open paper |
| 32 | Keshav Kapoor | University of Illinois Urbana-Champaign | Near-Infrared and Telecommunication-Wavelength Photon-Pair Source in Optical Fiber | Open paper |
| 33 | Nathan Arnold | Photon Queue Inc. | Delay-Line Quantum Memories for N-Photon State Preparation | Open paper |
| 34 | Kota Toyama | Research Institute of Electrical Communication, Tohoku University | Crosstalk-Suppressed Photon Pair Generation in a Self-Similar Waveguide Array | Open paper |
| 35 | Martina Esposito | University of Naples Federico II | Flux tunable entanglement generation in Josephson Traveling Wave Parametric Amplifiers | Open paper |
| 36 | Halil Kerim Yildirim | EPFL | A 96x96 Pixel SPAD Sensor for Flash LiDAR in SWIR | Open paper |
| 37 | Andrea Bonzi | Fondazione Bruno Kessler (FBK) | A Monolithic SPAD-based Quantum Random Number Generator with 0.875 bit/event Efficiency in 22-nm FD-SOI CMOS | Open paper |
| 38 | Olga Stroh-Vasenev | Laser Components Germany GmbH | Investigation of the Interdependency of Intrinsic Characteristics in a Single-Photon Counting Module via Electronic and Temperature Variation of Core Parameters | Open paper |
| 39 | Yanli Shi | Yunnan University | High performance InP/InGaAs single-photon detectors and applications | Open paper |
| 40 | Lorenzo Finazzi | Politecnico di Milano | Low Noise InGaAs/InP Single Photon Avalanche Diodes Integrated with 2PP-Printed Microlens | Open paper |
| 41 | Edoardo Charbon | Advanced Quantum Architecture Laboratory (AQUA), Ecole Polytechnique Federale de Lausanne (EPFL) | Metasurface-Enabled Mueller Matrix Imaging with SPAD Sensors | Open paper |
| 42 | Davide Orlandelli | Politecnico di MIlano | Oblong InGaAs/InP SPADs for evanescent waveguide coupling | Open paper |
| 43 | Matthias Aquilina | University of Glasgow | High Speed Edge Detection Using a Retinal Ganglion Cell-Based Filter on a SPAD Array. | Open paper |
| 44 | Kanokwan Nontapot | National Institute of Metrology (Thailand | Detection Efficiency of Silicon SPAD Detectors at Different Laser Repetition Rate and Mean Photon Number | Open paper |
| 45 | Mrudul Anil Modak | Heriot-Watt University | Characterisation of Short-Wave Infrared InGaAs/AlGaAsSb Single Photon Avalanche Diode Detectors at Room Temperature | Open paper |
| 46 | Jonathan Taylor-Mew | School of Electrical and Electronic Engineering, University of Sheffield | In0.53Ga0.47As/Al0.85Ga0.15As0.56Sb0.44 Single Photon Avalanche Diodes | Open paper |
| 47 | Philippe Bérard | Excelitas Canada Inc. | Recent Advances in Silicon-Based Single-Photon Counting Modules for Visible to 1064 nm Applications | Open paper |
| 48 | Carsten Pitsch | Fraunhofer IOSB | SPAD arrays for asynchronous Quantum Ghost Imaging: Achieving real-time video processing and imaging with diffuse reflection | Open paper |
| 49 | Antonio Guardiani | Single Quantum B.V. | High-Suppression of temporally filtered excitations by a ns-gated SNSPD | Open paper |
| 50 | Zhenda Xie | Nanjing University | All‑fiber device for single‑photon detection | Open paper |
| 51 | Daniel Sorensen | University of Colorado | You Can Have It All: Fast, Efficient, Number-Resolving SNSPDs with Scalable Readout | Open paper |
| 52 | Nidhi Choudhary, | University of Glasgow | Atomic-layered deposited mid-IR sensitive Superconducting Nanowire single photon detectors | Open paper |
| 53 | Niklas Lamberty | Paderborn University | Real-time single-photon selection from single and multi-element SNSPDs | Open paper |
| 54 | Diego Scarano | University of Naples Federico II | Characterization of photon-number quantum statistics using a multi-channel superconducting detector | Open paper |
| 55 | Shigeyuki Miyajima | National Institute of Information and Communications Technology | Superconducting Cryogenic Coincidence Circuit with Signal Merger for High Repetition-Rate Two Photon Interference Based on Superconducting Nanostrip Single Photon Detector | Open paper |
| 56 | Dmitry Morozov | James Watt School of Engineering, University of Glasgow | Arrays of Superconducting Nanowire Single Photon Detectors for Imaging and Telecom applications | Open paper |
| 57 | Thomas Produit | ID Quantique an IONQ company | Beyond Single-Mode Fiber: Multimode and Polarization-Maintaining Fiber Coupling for Commercial SNSPDs | Open paper |
| 58 | Annalara Ferrara | University Grenoble-Alpes, CEA, LETI | High-efficiency NbN Waveguide-Integrated Superconducting Nanowire Single-Photon Detectors at 1550 nm on 200-mm SOI Wafers | Open paper |
| 59 | Stefanie Grotowski | Walter Schottky Institute Technical University of Munich | Impact of the Stoichiometry of MoSi Thin Films on the Sensitivity of Superconducting Nanowire Single-Photon Detectors | Open paper |
| 60 | Marco Caputo | Single Quantum B.V. | Performance analysis of interleaved SNSPDs | Open paper |
| 61 | Ajeethkumar Rengarajan | University of Padova | Developing Superconducting Nanowire Single Photon Detectors with Photon Number Resolving Capability | Open paper |
| 62 | Hassan Jamal Latief | School of Physics UNSW | Superconducting Single Photon Detectors for quantum information processing | Open paper |
| 63 | Rasmus Flaschmann | Munich Quantum Instruments | Multi-Pixel Detectors for Fiber-coupled and Free-space applications with GHz count rates | Open paper |
| 64 | Riccardo Maria Ienco | Qunatech SRL | Superconducting Nanowire Single-Photon Detectors (SNSPD): application for Advanced Quantum Technologies | Open paper |
| 65 | Lingdong Kong | Shanghai Institute of Microsystem and Information Technology, Chinese Academy of Sciences | Resolving Photon Numbers Using a Single Superconducting Strip Single-Photon Detector | Open paper |
| 66 | Jasen Zion | California Institute of Technology | Towards Fast Neutral Atom Imaging Enabled by SNSPDs | Open paper |
| 67 | Gregor Taylor | EPFL | Modelling Superconducting Nanowire Single Photon Detectors with VerilogA for EDA Tool Integration | Open paper |
| 68 | Noah Franco Brugger | University of Zurich | Dark Matter Search Using SNSPDs in the QROCODILE Experiment | Open paper |
| 69 | Maria Alessandra Cutolo | Centro Regionale Information Communication Technology (CeRICT Scrl) | Fiber-tip dielectric multilayer filters for Dark Current noise mitigation in SNSPD applications: Design, Development and Characterization. | Open paper |
| 70 | Aaron Miller | Quantum Opus LLC | Advancing the State of the Art in SNSPD Performance | Open paper |
| 71 | Jonas Wiebe | Schottky Institute, TUM School of Computation, Information and Technology, Technical University of Munich | Atomically thin single-photon detection using few-layer NbSe2 | Open paper |
| 72 | Shigehito Miki | National Institute of Information and Communications Technology | Rectangular wave biased superconducting wide strip photon detectors for high-speed operation | Open paper |
| 73 | Eitan Oksenberg | Single Quantum B.V. | Short and Mid-Wave Infrared Detection with Superconducting Nanowire Single-Photon Detectors | Open paper |
| 74 | Frederik Baalbergen | Leiden University | Extracting Photon-Number Information from SNSPD Traces via Mean-Derivative Projection | Open paper |
| 75 | Carlos Alberto Diaz Lopez | Institute for Complex Quantum Systems at Ulm University | Vortex Energy barriers in Meandering Superconducting Nanowires: Controlling Jitter in SNSPDs via Magnetic Field and Bias Currents | Open paper |
| 76 | Abhishek Kumar | University of Salerno | Relaxation Times Analysis in Superconducting Tungsten Rhenium- Based Films for Single Photon Detectors | Open paper |
| 77 | Jacopo Piantanida Chiesa | Leiden University | Low temperature Thermal conductivity of thin film MoSi for SNSPDs | Open paper |
| 78 | Francesco Colangelo | University of Salerno and TU Delft | 4-Pixel SNSPD System for Stellar Intensity Interferometry | Open paper |
| 79 | Devendra Kumar Namburi | University of Liverpool | Characterization of NbN-based SNSPD for 1064 nm wavelength | Open paper |
| 80 | Sofia Grandi | INRiM and Politecnico di Torino | POLARIS: A Fiber Array Alignment System for TES Coupling | Open paper |
| 81 | Sofia Grandi | INRiM and Politecnico di Torino | Towards High-Efficiency Optical-TES Arrays for Quantum Applications | Open paper |
| 82 | Mario Siciliani de Cumis | Italian Space Agency | Shot-noise-limited operation of Mid-infrared lasers | Open paper |
| 83 | Laura Serino | University of Queensland | Frequency-Bin High-Dimensional Quantum Key Distribution with Multi-Basis Detection | Open paper |
| 84 | Astghik Kuzanyan | The Institute for Physical Research | Thermoelectric Single-photon Detector with High System Efficiency Based on Rare Earth Hexaborides | Open paper |
| 85 | Stefano Carsi | Nuclear Instruments srl | A Real-Time Digital Signal Processing Chain for SiPM Readout in Quantum Optics Experiments | Open paper |
| 86 | Lusine Mheryan | Institute for Physical Research | Four-layer Thermoelectric Single-photon Detector Sensor | Open paper |
| 87 | Mehmet Kanar | TÜBİTAK BİLGEM | Pseudo-Photon-Number-Resolving Heralding for Improved Single-Photon Character in a Type-II SPDC Source | Open paper |
| 88 | Laura D'Avossa | University of Naples Federico II | Towards Quantum Networks: Raman Noise analysis in C-Band over the UNINA Metropolitan Fiber Network | Open paper |