Head of Research Group
Postdoctorate
Dr. Noam Chai
My research applies methods from high-energy physics to complex optimization problems in computing. I focus on chip verification, quantum algorithm transpilation, and machine learning dynamics.
Room 430, Kaplun
PhD Students
Daniel Felman
I develop tensor network methods for quantum chemistry to efficiently simulate many-body systems. I also created ChemQHam, a Julia package for optimized quantum chemical Hamiltonians with symmetry support.
Room 430, Kaplun
Khen Cohen
I study quantum information, optics, and machine learning. My work includes quantum phase transition detection, QKD, quantum error correction, and the design of photonic quantum systems
Room 430, Kaplun
Lily Reisch Kuritzky
I’m a mathematical physicist working at the interface of quantum field theory, string theory, and low-dimensional topology. I focus on topological quantum field theories, defects in 4D systems, and quantum algebra.
Room 427, Kaplun
Publication list
Noam Rimock
I study graph states and their role in measurement-based quantum computing (MBQC). My current focus is on fusion operations, especially fusion type II.
Room 427, Kaplun
Ori Shem-Ur
I explore the intersection of machine learning and physics using concepts like symmetry, percolation, and effective theories. My goal is to understand why deep learning generalizes so well despite being highly overparameterized.
Room 430, Kaplun
Lily Reisch Kuritzky
I’m a mathematical physicist working at the interface of quantum field theory, string theory, and low-dimensional topology. I focus on topological quantum field theories, defects in 4D systems, and quantum algebra.
Room 427, Kaplun
Publication list
Noam Rimock
I study graph states and their role in measurement-based quantum computing (MBQC). My current focus is on fusion operations, especially fusion type II.
Room 427, Kaplun
Ori Shem-Ur
I explore the intersection of machine learning and physics using concepts like symmetry, percolation, and effective theories. My goal is to understand why deep learning generalizes so well despite being highly overparameterized.
Room 430, Kaplun
Master Students
Ori Shem-Ur
My work focuses on quantum observable teleportation within quantum information. Specifically, I study teleportation of energy and charge observables to harness these processes to develop a secure and practical QKD protocol.
Room 430, Kaplun
Publication list
Nadav Pomerantz
I study optimization algorithms and the effective theories of neural networks. My work also focuses on developing complexity measures for natural datasets to predict their learnability by machine learning models.
Room 427, Kaplun
Publication list
Yoav Tiktin
My research explores activation functions and optimization methods in neural networks. I also investigate their underlying physical mechanisms to better understand their behavior.
Room 427, Kaplun
Publication list
My work focuses on quantum observables teleportation within the broader field of quantum information. Specifically, I study the teleportation of energy and charge observables. The current objective is to harness these processes to develop a secure and practical quantum key distribution (QKD) protocol.
Amir Yona
Room 430, Kaplun
Publication list
I study optimization algorithms and the effective theories of neural networks. My work also focuses on developing complexity measures for natural datasets to predict their learnability by machine learning models.
Nadav Pomerantz
Room 427, Kaplun
Publication list
Khen Cohen
I study quantum information, optics, and machine learning. My work includes quantum phase transition detection, QKD, quantum error correction, and the design of photonic quantum systems
Room 430, Kaplun
Publication list
Omer Levy
I work on quantum chaos, particularly in periodically-driven quantum systems. I aim to develop robust and efficient tools to detect and quantify chaotic behavior in such systems.
Room 430, Kaplun
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Yoav Tiktin
My research explores activation functions and optimization methods in neural networks. I also investigate their underlying physical mechanisms to better understand their behavior.
Room 430, Kaplun
Publication list
Undergraduates
Roy Schein
I study the connection between Turbulence of fluids and the dynamics of black hole horizons
Roy Schein
I study the connection between Turbulence of fluids and the dynamics of black hole horizons