Quantum Cooling by Yuval Gefen

Quantum Cooling by Yuval Gefen

The Bizarre Mystery of the Quantum FoamПодробнее

The Bizarre Mystery of the Quantum Foam

Quantum state engineering, quantum steering, and IFM by Dr. Yuval GefenПодробнее

Quantum state engineering, quantum steering, and IFM by Dr. Yuval Gefen

“Quantum Engineering of Unsteerable States and Weak Values” by Dr. Yuval GefenПодробнее

“Quantum Engineering of Unsteerable States and Weak Values” by Dr. Yuval Gefen

Weak Measurements: A peephole to the Quantum World by Yuval GefenПодробнее

Weak Measurements: A peephole to the Quantum World by Yuval Gefen

Prof. Yuval Gefen : A New Paradigmatic Picture of the Edge of Fractional Quantum Hall SystemsПодробнее

Prof. Yuval Gefen : A New Paradigmatic Picture of the Edge of Fractional Quantum Hall Systems

Talks - Non-Equilibrium Emergence in Quantum Design - Yuval GEFEN, Weizmann InstituteПодробнее

Talks - Non-Equilibrium Emergence in Quantum Design - Yuval GEFEN, Weizmann Institute

Quantum Frontiers Lecture: Louis Taillefer - The Puzzles of SuperconductivityПодробнее

Quantum Frontiers Lecture: Louis Taillefer - The Puzzles of Superconductivity

New Paradigm of Edge Reconstruction in Fractional States: Interplay Between Charge and Neutral ModesПодробнее

New Paradigm of Edge Reconstruction in Fractional States: Interplay Between Charge and Neutral Modes

Neutral Modes and the Undoing of Anyonic InterferometryПодробнее

Neutral Modes and the Undoing of Anyonic Interferometry

Liquid Cooling for NVIDIA Blackwell GB200: Advanced Cold Plates for High-Performance AI GPUsПодробнее

Liquid Cooling for NVIDIA Blackwell GB200: Advanced Cold Plates for High-Performance AI GPUs

Chasing Absolute Zero – How do we Achieve the Coldest Temperature in the Universe?, by Péter JuhászПодробнее

Chasing Absolute Zero – How do we Achieve the Coldest Temperature in the Universe?, by Péter Juhász

Physics Colloquium, "Programmable quantum sensing using ultracold atoms in 3D optical lattices"Подробнее

Physics Colloquium, 'Programmable quantum sensing using ultracold atoms in 3D optical lattices'