101 physical nature of the optical waves. Super resolution techniques involve resolution enhancement of an image beyond this limitation. Super resolution methods are based on the understanding that high resolution spatial distribution can be obtained, if a priori information on the object exists. By utilizing this information, one may properly sacrifice it in order to achieve gain in the spatial domain. In our research we present super resolution methods that use either the time domain or the field of view domain. In time multiplexing super resolution, it is assumed that the object is stationary during the imaging process. Thus, it is possible to capture a sequence of images, and from them to extract the super resolution image. In field of view multiplexing it is assumed that the object is restricted in size and does not fill the entire field of view. Using this knowledge, the high-resolution data can be shifted to unused parts of the field of view, and pass through the system aperture. Publications 2021 and 2022 · Abhijit Sanjeev, Vismay Trivedi, Zeev Zalevsky. “Optical reciprocity induced wavefront shaping for axial and lateral shifting of focus through a scattering medium”. Scientific Reports, 2022. · Aditya Chandra Mandal, Tushar Sarkar, Zeev Zalevsky, Rakesh Kumar Singh. “Structured transmittance illumination coherence holography”. Scientific Reports, 2022. · Ariel Halevi, Nairouz Farah, Nisan Ozana, Sharon Cohen, Assaf Shoval, Orit Shefi, Yossi Mandel, Zeev Zalevsky. “Remote photonic sensing of action potential in mammalian nerve cells via histogrambased analysis of temporal spatial acoustic vibrations”. Optics Express, 2022. · Ben Sadeh, Ilan Merdler, Sapir Sadon, Lior Lupu, Ariel Borohovitz, Eihab Ghantous, Philippe Taieb, Yoav Granot, Orit Goldstein, Jonathan Calderón Soriano, Ricardo Rubio-Oliver, Joaquin Ruiz-Rivas, Zeev Zalevsky, Javier Garcia-Monreal, Maxim Shatsky, Sagi Polani, Yaron Arbel. “A novel contact-free atrial fibrillation monitor: a pilot study”. European Heart Journal-Digital Health, 2022. · Daniel Beitner, Itai Carmeli, Zeev Zalevsky, Shachar Richter, Haim Suchowski. “Coupled Molecular Emitters in Superstructures Interact with Plasmonic Nanoparticles”. Advanced Photonics Research, 2022. · David Glukhov, Avihu Zechariah Levi, Zeev Zalevsky, Avi Karsenty. “Energy hot spots distribution on groove surface, elucidated by hybrid optical model in illuminated SOI photo-polarized-activated modulator”. Applied Surface Science, 2022. · David Glukhov, Zeev Zalevsky, Avi Karsenty. “Picosecond pulsed laser illumination: an ultimate solution for photonic versus thermal processes’ contest in SOI photo-activated modulator”. Scientific Reports, 2022. · Deep Pal, Sergey Agadarov, Yevgeny Beiderman, Yafim Beiderman, Amitesh Kumar, Zeev Zalevsky. “Non-invasive blood glucose sensing by machine learning of optic fiber-based speckle pattern variation”. Journal of Biomedical Optics, 2022. · Eliezer Danan, Nadav Shabairou, Yossef Danan, Zeev Zalevsky. “Signal-to-Noise Ratio Improvement for Multiple-Pinhole Imaging Using Supervised Encoder– Decoder Convolutional Neural Network Architecture”. Photonics, 2022. · JuanJuan Zheng, Xiang Fang, Kai Wen, Jiaoyue Li, Ying Ma, Min Liu, Sha An, Jianlang Li, Zeev Zalevsky, Peng Gao. “Large-field lattice structured illumination microscopy”. Optics Express, 2022. · Maor Laufer, Zeev Zalevsky. “Enhanced field of view multiplexing superresolution incorporating geometric super-resolution by time multiplexing sub-pixeling”. JOSA A, 2022. · Mark Golberg, Ran Califa, Sagi Polani, Orit Goldstein, Zailer Aviram, Meir Niska, Zeev Zalevsky. “Analysis of peripheral arterial disease (PAD) patients by laser speckle measurement techniques”. Optics Express, 2022. · Matan Benyamin, Zeev Zalevsky. “All Optical Speckle Contrast-Based Vibration Sensor for Photoacoustic Signal Detection”. Sensors, 2022. · Nadav Shabairou, Maor Tiferet, Zeev Zalevsky, Moshe Sinvani. “Dynamics of laser-induced tunable focusing in silicon”. Scientific Reports, 2022. · Nadav Shabairou, Zeev Zalevsky, Moshe Sinvani. “Laser-Induced Tunable Focusing in Semiconductors”. Imaging Systems and Applications, IW1C. 4, 2022. · Nisan Ozana, Zeev Zalevsky. “11 Noninvasive Photonic Sensing”. Biomedical Photonics for Diabetes Research, 2022. · Niv Gorodesky, Sharona Sedghani-Cohen, Ofer Fogel, Marc Altman, Gili CohenTaguri, Zvi Kotler, Zeev Zalevsky. “Printed Cu–Ag Phases Using Laser-Induced Forward Transfer”. Advanced Engineering Materials, 2022. · Raz Shahmoon, Yitav Tamir, Yevgeny Beiderman, Sergey Agdarov, Yafim Beiderman, Zeev Zalevsky. “Analysis of swallowing in infants and adults using speckle pattern analysis”. Scientific Reports, 2022. · Shay Yederman, Zeev Zalevsky. “Analysis and simulation of optical spectral phase encoding using an array of Fabri-Perot interferometers and code division multiplexing”. Optics Continuum, 2022. · Vismay Trivedi, Swapnil Mahajan, Mugdha Joglekar, Nirav Joshi, Vani Chhaniwal, Satish Kumar Dubey, Zeev Zalevsky, Bahram Javidi, Arun Anand. “Optomechanical magnetometer based on laser speckle correlation”. Measurement, 2022. · Ying Ma, Lin Ma, Juanjuan Zheng, Min Liu, Zeev Zalevsky, Peng Gao. “High SpatioTemporal Resolution Condenser-Free Quantitative Phase Contrast Microscopy”. Frontiers in Physics, 2022. · Zeev Kalyuzhner, Sergey Agdarov, Itai Orr, Yafim Beiderman, Aviya Bennett, Zeev Zalevsky. “Remote photonic detection of human senses using secondary speckle patterns”. Scientific Reports 12 (1), 1-9, 2022. · Zeev Zalevsky, Shimon Elkabetz, Arkady Rudnitsky, Oran Herman, Amihai Meiri, Asaf Shahmoon. “S194–Imaging through scattering media by 3D spatial filtering embedded into micro-endoscope”. Surgical Endoscopy, 2022. · Gil Otis, Matan Benyamin, Yitzhak Mastai, Zeev Zalevsky. “Photoacoustic measurement of localized optical dichroism in chiral crystals”. Chemical Communications, 2022. · Kai Wen, Ying Ma, Min Liu, Jianlang Li, Zeev Zalevsky, Juanjuan Zheng. “Transmission structured illumination microscopy for quantitative phase and scattering imaging”. Frontiers in Physics, 2021. · Niv Gorodesky, Sharona Sedghani-Cohen, Ofer Fogel, Marc Altman, Gili CohenTaguri, Zvi Kotler, Zeev Zalevsky. “Printed Cu–Ag Phases Using Laser-Induced Forward Transfer”. Advanced Engineering Materials, 2021. · Ofer Havakuk, Ben Sadeh, Ilan Merdler, Zeev Zalevsky, Javier Garcia-Monreal, Sagi Polani, Yaron Arbel. “Validation of a novel contact-free heart and respiratory rate monitor”. Journal of Medical Engineering & Technology, 2021.
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