57 as well as emerging quantum technologies. We attempt to better detect, quantify, characterize, and utilize unique quantum resources such as entanglement, discord, irrealism and contextuality in the pursuit of novel computation, communication, and sensing protocols. The primary tool we use throughout our exploration is quantum optics. Quantum circuit for computing quantum informational invariants. Publications 2022 and 2023 • Eliahu Cohen. “Quantum clock frames: Uncertainty relations, non-Hermitian dynamics and nonlocality in time”. Journal of Physics: Conference Series, 2023. • Michael Suleymanov, Eliahu Cohen. “Quantum frames of reference and the relational flow of time”. The European Physical Journal Special Topics, 2023. • Sara Meir, Yuval Tamir, Hamootal Duadi, Eliahu Cohen, Moti Fridman. “Ultrafast Temporal SU (1, 1) Interferometer”. Physical Review Letters, 2023. • Ryo Okamoto, Eliahu Cohen. “Experimentally probing anomalous time evolution of a single photon”. PNAS Nexus, 2023. • Ismael L Paiva, Pedro R Dieguez, Renato M Angelo, Eliahu Cohen. “Coherence and realism in the Aharonov-Bohm effect”. Physical Review A, 2023. • Gal Amit, Yonathan Japha, Tomer Shushi, Ron Folman, Eliahu Cohen. “Countering a fundamental law of attraction with quantum wave-packet engineering”. Physical Review Research, 2023. • Chen Mechel, Jonathan Nemirovsky, Eliahu Cohen, Ido Kaminer. “Fundamental quantum limits of magnetic nearfield measurements”. npj Quantum Information, 2023. • Amit Te’eni, Bar Y Peled, Eliahu Cohen, Avishy Carmi. “Study of entanglement via a multi-agent dynamical quantum game”. Plos One, 2023. • Danko Georgiev, Eliahu Cohen. “Entanglement measures for two-particle quantum histories”. Physical Review A, 2022. • Yakov Bloch, Eliahu Cohen. “The identification of mean quantum potential with Fisher information leads to a strong uncertainty relation”. Foundations of Physics, 2022. • Jonathan Nemirovsky, Eliahu Cohen, Ido Kaminer. “Spin-Spacetime Censorship”. Annalen der Physik, 2022. • Ismael L Paiva, Rain Lenny, Eliahu Cohen. “Geometric phases and the Sagnac effect: Foundational aspects and sensing applications”. Advanced Quantum Technologies, 2022. • Ismael L Paiva, Augusto C Lobo, Eliahu Cohen. “Flow of time during energy measurements and the resulting timeenergy uncertainty relations”. Quantum, 2022. • IL Paiva, M Nowakowski, E Cohen. “Dynamical nonlocality in quantum time via modular operators”. Physical Review A, 2022. • Gal Amit, Idan Mosseri, Ofir Even-Hen, Nadav Schneider, Elad Fisher, Hanan Datz, Eliahu Cohen, Noaz Nissim. “Particles Detection System with CR-39 Based on Deep Learning”. Laser and Particle Beams, 2022. • Ariel Ashkenazy, Racheli Ron, Tchiya Zar, Hannah Aharon, Adi Salomon, Dror Fixler, Eliahu Cohen. “Measurement of the Second-Order Polarizability of Silver Nanoparticles With Reference-Free Hyper-Rayleigh Scattering for Entangled Photon Pair Interaction”. IEEE Photonics Journal, 2022. • Sara Meir, Avi Klein, Hamootal Duadi, Eliahu Cohen, Moti Fridman. “Single-shot analysis of amplified correlated light”. Optics Express, 2022. Dr. Cohen–Taguri Gili XRD Member of BINA staff Publications 2022 and 2023 • Danveer Singh, Michal Poplinger, Avraham Twitto, Rafi Snitkoff, Pilkhaz Nanikashvili, Ori Azolay, Adi Levi, Chen Stern, Gili Cohen Taguri, Asaf Albo, Doron Naveh, and Tomer Lewi. “Chemical Vapor Deposition of Spherical Amorphous Selenium Mie Resonators for Infrared Meta-Optics”. ACS Applied Materials & Interfaces, 2022. Prof. Danielli Amos Faculty of Engineering Member of BINA Nano-Biomedicine Center Nano-Electro Magnetism & Spintronics Center Research Areas • Rapid and highly sensitive detection of biomarkers, such as proteins and specific DNA sequences • Detection of protein-protein interactions • Magnetic manipulation of nanoparticles, design of magnetic poles, magnetic force optimization Abstract Optical Imaging and Biosensing We develop high-sensitivity, point-of-care (POC) methods to detect and measure low concentrations of biomarkers. Clinical adoption of our devices could spur development for other medical applications that could benefit from point-of-care, high sensitivity biomarker detection, including detection of head injuries biomarkers, viruses, etc. Magnetic modulation biosensing (MMB) system combines magnetic and fluorescent labeling to measure ultra-low biomarker concentrations, allowing rapid and sensitive detection. Publications 2022 and 2023 • Shira Avivi-Mintz, Yaniv Lustig, Victoria Indenbaum, Eli Schwartz, Amos Danielli. “Highly Sensitive and Specific SARS-CoV-2 Serological Assay Using a Magnetic Modulation Biosensing System”. Biosensors, 2022.
RkJQdWJsaXNoZXIy NDU2MA==