BAR-ILAN INSTITUTE OF NANOTECHNOLOGY & ADVANCED MATERIALS | 2019 ANNUAL REPORT

60 Measurements”, Journal of Physics B: Atomic, Molecular and Optical Physics 52(14) 145401 2019 . • Gilad Yahav, Hilel Hagai Diamandi, Eyal Preter, and Dror Fixler, “The squared distance approach to frequency domain time-resolved fluorescence analysis”, accepted for publication at Journal of Biophotonics DOI 10.1002/jbio.201800485 2019 . • Rachel Lubart, Inbar Yariv, Dror Fixler and Anat Lipovsky, “A Breakthrough Facial Cream Based on Small Sized Hyaluronic Acid with Enhanced Therapeutic Properties”, accepted for publication at The Journal of Clinical and Aesthetic Dermatology (JCAD) 2019 . • Hamootal Duadi, Daqing Piao, Dror Fixler, “The Self Calibration Iso-Pathlength Point in Cylindrical Tissue Geometry: Solution of Steady-State Photon Diffusion Based on the Extrapolated Zero-Boundary”, OSA Continuum 2(1), 92-98 2019 . • Ruchira Chakraborty, Rinat Ankri, Dorit Leshem-Lev, Edith Hochhauser, Ran Kornowski, Menachem Motiei, Eli I. Lev and Dror Fixler, “Hyperlipidemic mouse as a model for a real-time in vivo detection of atherosclerosis by gold nanorods based diffusion reflection technique”, Journal of Biophotonics 12(1) e201800218 2019 . • Gal Elhalel, Colin Price, Dror Fixler, Asher Shainberg, “Cardioprotection from stress conditions by weak magnetic field in the Schumann Resonance band”, Scientific Reports (Nature publications) 9:1645 2019 . • Manoop Chenchiliyan, Dana Adler, Ruchira Chakraborty, Tal Shahar Ben-Gal, Assaf Deutsch, Eliahu Pewzner, Asher Shainberg, Hamootal Duadi, Dror Fixler, “Dynamic ratio-metric imaging of cytosolic free Ca2+ in skeletal muscle cells using 340/385 nm light emitting diode illuminators”, IEEE photonics journal 10(6), 1-10 2018 . • Inbar Yariv, Hamootal Duadi, Dror Fixler, “An optical method to extract the reduced scattering coefficient from tissue: theory and experiments”, Optics letters 43(21), 5299-5302 2018 . • Niu Yuefang, Ling Guo, Wang Li, Xie Zheng, Eran A. Barnoy, Zhou Shuyun, Dror Fixler, “Gold Rod-Polyethylene Glycol-Carbon Dots Nanohybrids as Phototheranostic Probes”, Nanomaterials 8(9), 706 2018 . • Rinat Ankri, Ruchira Chakraborty, Menachem Motiei, and Dror Fixler, ”Three- Dimensional Highly Sensitive Diffusion Reflection-Based Imaging Method for the In Vivo Localization of Atherosclerosis Plaques Following Gold Nanorods Accumulation”, ACS Omega 3(6) 6134– 6142 2018 . • Gilad Yahav, Sivan Gershanov, Mali Salmon-Divon, Haim Ben-Zvi, Gabriel Mircus, Nitza Goldenberg-Cohen, and Dror Fixler, Pathogen Detection Using Frequency Domain Fluorescent Lifetime Measurements, IEEE Transactions on Biomedical Engineering 65(12) 2731-2741 2018 . • Idit Feder, Hamootal Duadi, Ruchira Chakraborty and Dror Fixler, ”Self- Calibration Phenomenon for Near-infrared Clinical Measurements: Theory, Simulation and Experiments“, ACS Omega 3(3) 2837–2844 2018 . • Eran A. Barnoy, Rachela Popovtzer and Dror Fixler, ”Development of a molecular bio-switch using fluorescence lifetime imaging: incremental activation of fluorescein diacetate”, Journal of Biophotonics 11(2) e201700061 2018 . • Xiaojing Liu, Luting Liu, Xiujie Hu, Shuyun Zhou, Rinat Ankri, Zheng Xie, Dror Fixler, ”Multimodal Bioimaging based on Gold Nanorods and Carbon Dots Nanohybrids as a novel tool for Atherosclerosis Detection”, Nano Research 11 (3), 1262-1273 2018 . • Hamootal Duadi, Idit Feder, Dror Fixler, “Near-infrared human finger measurements based on self-calibration point: simulation and in vivo experiments“, Journal of Biophotonics 11(4) e201700208 2018 . Dr. Moti Fridman Faculty of Engineering Member of BINA, Nano-Photonics Center Research Areas • Temporal optics Temporal depth imaging Time-lenses for orthogonal polarized input signals Temporal super resolution methods Full Stocks time-lenses Temporal and spatial evolution of ultra-fast rogue waves • Fiber Devices Long period fiber gratings Gold coated tapered fibers Fiber micro-knots • Fiber lasers Carbon nanotubes Graphen Topological insulators Abstract Temporal optics Temporal optics is a new and evolving field, and utilizing it can revolutionize optical data processing. Our lab focuses on developing advanced temporal optics devices such as time-lenses, temporal microscope, temporal cavities, etc. We design, fabricate and assemble the main building blocks of the temporal schemes which are the ultra-fast laser and the highly nonlinear fiber. Thanks to these abilities, and together with the experience in complex temporal schemes we are able to pursue advanced temporal schemes which were never been done before. Our temporal devices are useful for basic research of ultra-fast phenomena as well as for the telecommunication industry leading toward full optical data processing. In a parallel effort, we develop and fabricate fiber devices such as long period fiber gratings, fiber micro-knots, fiber micro- resonators, micro-lasers etc.