| 79 | Prof. Sebbah Patrick Department of Physics Mesoscopic Optics and Complex Media Research Areas • Experimental physics in wave propagation in complex media • Light-matter Interaction • Elastic waves in structure plates • Multiple scattering, Anderson localization • Nonlinear and active random media, random lasers • Nonlinear scattering, instabilities • Speckle statistics, optical singularities • Metamaterials • Microwave scattering and localization in a disordered system Abstract Waves are means by which we probe our environment and communicate with one another. In media, waves propagate and are often heterogeneous, scattering, and sometimes opaque. In such media, interference plays an essential role. Prof. Patrick Sebbah's current research focuses on wave-matter interaction and the fundamental phenomena resulting from multiple scattering and interference of waves in disordered media. Among these phenomena, Anderson localization plays a central role. In certain scattering conditions, the wave can be trapped in a finite space region due to interference. Anderson proposed this phenomenon in the fifties to explain the metal-insulator transition of electrons in metals. Spurred by the analogy with electronic waves, rapid progress has been made in recent years in understanding the transport of classical waves in random media in the emerging fields of mesoscopic optics and photon localization. Wave propagation in disordered media. Publications 2023 and 2024 • Jingxuan Zhang, Chenni Xu, Patrick Sebbah, Li-Gang Wang. “Diffraction Limit of Light in Curved Space.” Photonics Research, 2024. • Bhupesh Kumar, Sebastian A Schulz, Patrick Sebbah. “Temperature-Controlled Spectral Tuning of a Single Wavelength Polymer-Based Solid-State Random Laser.” Optics Express, 2024. • Bhupesh Kumar, Ran Homri, Patrick Sebbah. “2D Tunable All-Solid-State Random Laser in the Visible.” Scientific Reports, 2023. • Kun Tang, Yuqi Wang, Shaobo Wang, Da Gao, Haojie Li, Xindong Liang, Patrick Sebbah, Yibin Li, Jin Zhang, Junhui Shi. “Hyperuniform Disordered Parametric Loudspeaker Array.” Physical Review Applied, 2023. • Renu Yadav, Patrick Sebbah, Maruthi M Brundavanam. “Tracking Nanoscale Perturbation in Active Disordered Media.” Physical Review A, 2023. • Kun Tang, Eitam Luz, David Amram, Luna Kadysz, Sébastien Guenneau, Patrick Sebbah. “Dynamic Cloaking of a Diamond-Shaped 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. Mr. Shabi Nahum IBA Publications 2023 and 2024 • Nahum Shabi, Madina Telkhozhayeva, Olga Girshevitz, Moshe Kaveh, Issai Shlimak. “In-Depth Investigation into Defect-Induced Raman Lines in Irradiated Graphene.” Surfaces and Interfaces, 2024. • Omer Kaspi, Osnat Israelsohn-Azulay, Zidon Yigal, Hila Rosengarten, Matea Krmpotić, Sabrina Gouasmia, Iva Bogdanović Radović, Pasi Jalkanen, Anna Liski, Kenichiro Mizohata, Jyrki Räisänen, Zsolt Kasztovszky, Ildikó Harsányi, Raghunath Acharya, Pradeep K. Pujari, Molnár Mihály, Mihaly Braun, Nahum Shabi, Olga Girshevitz, and Hanoch Senderowitz. “Toward Developing Techniques Agnostic Machine Learning Classification Models for Forensically Relevant Glass Fragments.” Journal of Chemical Information and Modeling, 2023. Prof. Sharoni Amos Department of Physics Nano Devices and Advanced Materials Research Areas • Phase transitions on the nano-scale • Spintronics • New Temperature Coefficient of Resistance (TCR) materials • Organic/SC hybrid
RkJQdWJsaXNoZXIy NDU2MA==