Research Group
Nano-bio Optics Lab
Principal Investigator: Yoav Schechtman Faculty: Biomedical Engineering Develops advanced optical microscopy modalities including super‑resolution, computational and deep learning–enhanced imaging, wavefront shaping, single‑molecule localization and live‑cell nano‑scale visualization applied to biological structure, dynamics, chromatin organization and microfluidic platforms. Learn More →
Read MoreExcitonics Lab
Principal Investigator: Carmel Rotschild Faculty: Mechanical Engineering Prof. Rotschild’s group operates at the intersection of physics, thermodynamics, and optics, utilizing thermodynamic principles to develop novel optical devices. Their research focuses on “Excitonics” – localized energy states in small molecules – to engineer energy dynamics for applications like luminescent solar power, thermal-to-electric energy conversion, and integrated on-chip lasers.…
Read MoreMolecular Quantum Technology Lab
Principal Investigator: Yuval Shagam Faculty: Chemistry Develops precision molecular ion trapping for parity violation studies in chiral molecules, quantum coherence leveraged metrology, cold ion‑neutral chemistry near ultralow temperatures, and quantum optical techniques for molecular chirality detection and fundamental symmetry tests. Learn More →
Read MoreIdo Schwartz Group
Principal Investigator: Ido Schwartz Faculty: Physics Investigates optical and electronic properties of atomically thin 2D material heterostructures, exploring many‑body electron phases (e.g., Wigner crystal, Mott insulating, superconducting states) under external perturbations, and studies trapped spins and single‑photon emitters for multi‑qubit photonic entanglement in quantum information contexts. Learn More →
Read MoreAtomic-Scale Photonics Laboratory
Principal Investigator: Erez Hasman Faculty: Mechanical Engineering Prof. Hasman’s group is a pioneer in the field of nanophotonics and optical metasurfaces, specifically renowned for developing the field of Spinoptics and geometric phase phenomena. The lab focuses on fundamental and applied research in light-matter interactions, exploring topics such as the photonic Rashba effect, topological photonics, and quantum entanglement…
Read MoreOptoelectronics / High-Speed Photonics Laboratory
Principal Investigator: Gadi Eisenstein Faculty: Electrical & Computer Engineering Studies dynamics and noise of diode lasers and optical amplifiers, semiconductor optical amplifier design (including facet engineering and characterization), photonic crystal and nano‑photonics devices, high‑speed fiber and microwave photonic systems, nonlinear fiber interactions, and timing/clock related optoelectronic phenomena. Learn More →
Read MoreAdvanced Fiber Sources (AFS)
Principal Investigator: Pavel Sidorenko Faculty: Electrical & Computer Engineering Research centers on high‑power fiber laser architectures, ultra‑fast fiber amplifiers employing gain‑managed nonlinearity, pulse propagation and control in confined gain media, and application‑oriented advances in fiber‑based photonic systems. Learn More →
Read MoreUltrafast Quantum Dynamics Group (Attonano)
Principal Investigator: Michael Krueger Faculty: Physics Investigates coherent electron dynamics at attosecond time scales and atomic to nanometer length scales in atoms, molecules and solids; develops methodologies for simultaneous high‑spatial/high‑temporal resolution imaging and spectroscopy to elucidate decoherence pathways and ultrafast quantum processes. Learn More →
Read MoreUltrafast Optics Group (UFO)
Principal Investigator: Oren Cohen Faculty: Physics Focus on circularly polarized high‑order harmonic and attosecond pulse generation, extreme nonlinear quantum optics, time‑resolved multiplexed ptychographic imaging, induction of long‑lived atmospheric waveguides by laser filaments, advanced ultrashort pulse diagnostics (including data‑driven methods), spatiotemporal soliton dynamics, sparsity‑based super‑resolution, and dynamical symmetry/selection‑rule spectroscopy. Learn More →
Read MoreSegev Group
Principal Investigator: Moti Segev Faculty: Physics and Electrical & Computer Engineering Research themes include topological photonics (insulators, artificial gauge fields, protected transport), light propagation in disordered media (Anderson localization, hyper‑transport), structure‑enabled subwavelength and super‑resolution imaging across space, time and frequency, curved‑space inspired photonic architectures, complex nonlinear optofluidics, and nanoscale photonics. Learn More →
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