91 Dr. Stern Michael Department of Physics Member of BINA Nano-Electro Magnetism & Spintronics Center Nano-Quantum Center Research Areas • Mesoscopic Physics • Semiconductor Physics • Quantum information • Superconducting circuits • Hybrid Quantum Systems Publications 2022 and 2023 • T Chang, I Holzman, T Cohen, BC Johnson, DN Jamieson, M Stern. “Reproducibility and control of superconducting flux qubits”. Physical Review Applied, 2022. • Subhradeep Misra, Michael Stern, Vladimir Umansky, Israel Bar-Joseph. “The Role of Spin-Flip Collisions in a DarkExciton Condensate”. Proceedings of the National Academy of Sciences, 2022. • T Chang, T Cohen, I Holzman, G Catelani, M Stern. “Tunable superconducting flux qubits with long coherence times”. Physical Review Applied, 2022. • Inbar Shani, Emanuele G Dalla Torre, Michael Stern. “Coherence properties of a spin in a squeezed resonator”. Physical Review A, 2022. • Paul Brookes, Tikai Chang, Marzena Szymanska, Eytan Grosfeld, Eran Ginossar, Michael Stern. “Protection of quantum information in a chain of Josephson junctions”. Physical Review Applied, 2022. Dr. Teblum Eti Projects Manager AFM Member of BINA staff Publications 2022 and 2023 • Abderrahim Moumen, Rajashree Konar, Dario Zappa, Eti Teblum, Gilbert Daniel Nessim*, and Elisabetta Comini*. “RoomTemperature NO2 Sensing of CVDModified WS2–WSe2 Heterojunctions”. ACS Appl. Nano Mater, 2023. • Jeremy Belhassen, Simcha Glass, Eti Teblum, George A. Stanciu, Denis E. Tranca, Zeev Zalevsky*, Stefan G. Stanciu* and Avi Karsenty*. “Toward Augmenting Tip-Enhanced Nanoscopy with Optically Resolved Scanning prob tips”. Advanced Photonics Nexus, 2023. • Shalev Blanga, Reut Yemini, Eti Teblum, Merav Tsubery, Sarah Taragin, and Malachi Noked*. “Improving Li Anode Reversibility in Li–S Batteries by ZnO Coated Separators Using tomic Layer Deposition”. Journal of The Electrochemical Society, 2022. • Bharathi Rajeswaran, Rajashree Konar, Sriram Guddala, Tali Sharabani, Eti Teblum, Yaakov Tischler, Gilbert Daniel Nessim*. “Nanostructure-Free MetalDielectric Stacks for Raman Scattering Enhancement and Defect Identification in CVD-Grown Tungsten Disulfide (2H-WS2)”. Nanosheets. J. Phys. Chem. C, 2022. • Andrea Villa, Madina Telkhozhayeva, Fabio Marangi, Eti Teblum, Aaron Ross, Mirko Prato, Luca Andena, Roberto Frassine, Francesco Scotognella*, Gilbert Daniel Nessim. “Optical Properties and Ultrafast Near-Infrared Localized Surface Plasmon Dynamics in Naturally p-Type Digenite Films”. Advanced Optical Materials, 2022. • Madina Telkhozhayeva, Baruch Hirsch, Rajashree Konar, Eti Teblum, Ronit Lavi, Michal Weitman, Bibhudatta Malik, Elisa Moretti, and Gilbert Daniel Nessim*. “2D TiS2 Flakes for Tetracycline Hydrochloride Photodegradation under Solar Light”. Applied Catalysis B: Environmental, 2022. • Reut Yemini, Shalev Blanga, Hagit Aviv, Ilana Perelshtein, Eti Teblum, Shahar Dery, Elad Gross, Yitzhak Mastai,* Malachi Noked,* and Ortal Lidor-Shalev*. “Growth of Hybrid Chiral Thin Films by Molecular Layer Deposition Zinc/Cysteine as a Case Study”. Adv. Mater. Interfaces, 2022. • Shimon Yudovich, Adan Marzouqe, Joseph Kantorovitsch, Eti Teblum, Tao Chen, Jörg Enderlein, Evan W. Miller, Shimon Weiss. “Electrically Controlling and Optically Observing the Membrane Potential supported Lipid Bilayers- Supporting material”. Biophysical Journal, 2022. • Rajashree Konar, Bharathi Rajeswaran, Atanu Paul, Eti Teblum, Hagit Aviv, Ilana Perelshtein, Ilya Grinberg, Yaakov Tischler, Gilbert Nessim: CVD-assisted Synthesis of 2D Layered MoSe2 on Mo foil and Low-Frequency Raman scattering of its Exfoliated Few-Layer Nanosheets on CaF2 Substrate. ACS Omega, 2022. Prof. Tischler Yaakov Department of Chemistry Member of BINA Nano-Photonics Center Nano-Energy Center Research Areas • Coherent coupling in light-matter coupled systems: Organic Lasers, J-aggregates, and Polaritons • Ultra-high resolution scanning microcopy and spectroscopy • Applications of ultra-fast non-linear spectroscopy for energy sustainability • Novel approaches to organic crystal growth and OLED deposition Abstract Device Spectroscopy Laboratory The Device Spectroscopy Laboratory (DSL) is focused on spectroscopy of nanoscale materials incorporated inside nanoscale optical and optoelectronic devices. Our efforts are concentrated on understanding and tailoring light-matter interactions at the most fundamental level, and then on parlaying these insights into useful application-oriented devices. We specialize
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