86 Wave propagation in disordered media. Publications 2022 and 2023 • Bhupesh Kumar, Ran Homri, Patrick Sebbah. “2D tunable all-solid-state random laser in the visible”. Scientific Reports, 2023. • Bhupesh Kumar, Sebastian Schulz, Patrick Sebbah. “Broadband Continuous Spectral Control of a Single Wavelength PolymerBased Solid-State Random Laser”. Optica Open, 2023. • Kun Tang, Eitam Luz, David Amram, Luna Kadysz, Sébastien Guenneau, Patrick Sebbah. “Dynamic cloaking of a diamondshaped hole in elastic plate”. Applied Physics Letters, 2023. • Chenni Xu, Li-Gang Wang, Patrick Sebbah. “Ray Engineering from Chaos to Order in 2D Optical Cavities”. Laser & Photonics Reviews, 2023. • Renu Yadav, Patrick Sebbah, Maruthi M Brundavanam. “Tracking nanoscale perturbation in active disordered media”. Physical Review A, 2023. • N Bachelard, A Schumer, B Kumar, C Garay, J Arlandis, R Touzani, P Sebbah. “Coalescence of Anderson-localized modes at an exceptional point in 2D random media”. Optics Express, 2022. • Bhupesh Kumar, Ran Homri, Patrick Sebbah. “Full Spectral control in a OneDimensional Solid State Random Laser”. Applications of Lasers for Sensing and Free Space Communications, 2022. • Chenni Xu, Itzhack Dana, Li-Gang Wang, Patrick Sebbah. “Light chaotic dynamics in the transformation from curved to flat surfaces”. Proceedings of the National Academy of Sciences, 2022. Prof. Sharoni Amos Department of Physics Member of BINA Nano-Electro Magnetism & Spintronics Center Research Areas • Phase transitions on the nano-scale • Spintronics • New Temperature Coefficient of Resistance (TCR) materials • Organic/SC hybrid Abstract Nano devices and Advanced materials Using physical vapor deposition and clean-room nano-fabrication we prepared complex nano-scale devices made of interesting electronics and magnetic materials. We study the basic properties of materials, toward novel applications. Our research includes correlated electronic effects in the metal insulator transition of transition metal oxides, the chiral induced spin selectivity effect in hybrid devices, and novel magnetic and electronic platform for bio-interfacing of neuronal systems. Dome shaped particles prepared by a facile physical route atop polystyrene particles. Particles are 1.5 size and only 50 nm thick. Publications 2022 and 2023 • Ganit Indech, Lidor Geri, Chen Mordechai, Yarden Ben Moshe, Yitzhak Mastai, Orit Shefi, Amos Sharoni. “Controlled synthesis of multifunctional dome-shaped microand nano-structures via a robust physical route for biological applications”. Journal of Materials Chemistry B, 2023. • Dafna Rivka Levenberg, Eli Varon, Ganit Indech, Tal Ben Uliel, Lidor Geri, Amos Sharoni, Orit Shefi. “A streptavidin– biotin system combined with magnetic actuators for remote neuronal guidance”. Journal of Biological Engineering, 2023. • Michal Wasserman, Avner Shaulov, Amos Sharoni, Yosef Yeshurun. “Dendritic flux avalanches in superconducting hybrid structures”. Superconductor Science and Technology, 2023. • Seif Alwan, Subhajit Sarkar, Amos Sharoni, Yonatan Dubi. “Temperature-dependence of the chirality-induced spin selectivity effect—Experiments and theory”. The Journal of Chemical Physics, 2023. • Elihu Anouchi, Tony Yamin, Amos Sharoni. “Three-Terminal -Based Device with Internal Read-Write Switching”. Physical Review Applied, 2023. • Elihu Anouchi, Naor Vardi, Yoav Kalcheim, Ivan K Schuller, Amos Sharoni. “Universality and microstrain origin of the ramp reversal memory effect”. Physical Review B, 2022. • Lior Shani, Avital Fried, Yafit Fleger, Olga Girshevitz, Amos Sharoni, Yosef Yeshurun. “Effect of Focused Ion Beam Irradiation on Superconducting Nanowires”. Journal of Superconductivity and Novel Magnetism, 2022. Prof. Shav-Tal Yaron Dean of The Mina & Everard Goodman Faculty of Life Sciences Member of BINA Nano-Biomedicine Center Research Areas • Gene expression control in live cells • Live-cell imaging and RNA dynamics • Nuclear structure and function Abstract The studies in the Shav-Tal research group focus on fundamental regulatory points in the gene expression pathway and have centered on the mRNA molecule. We have examined co-transcriptional processing of mRNA at the site of transcription and its coupling to transcription, followed
RkJQdWJsaXNoZXIy NDU2MA==