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complexity for many-body systems, quantum field theories and quantum gravity. The milestones of the project include: synthesizing and developing physical measures of complexity, formulating them in exact
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mode and encodes arbitrary quantum information within the logical subspace. At the Applied Quantum Physics Laboratory (AQPL) , we work on theoretical aspects of future high-performance nano-electronic
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to develop complement/augment classical CFD methods with quantum algorithms/techniques. The work lies at the intersection of multiphase flow physics, numerical modeling, and quantum computing. Who we
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platforms based on bosonic modes, also called CV modes, such as microwave harmonic oscillators used to process quantum information. The project provides a rare chance to develop new theoretical and
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offer a vibrant, international research environment and direct access to world-class nanofabrication facilities. At the Quantum Technology Laboratory , we explore how quantum physics can unlock radically
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for fast tune-up Implementation and benchmarking of quantum algorithms Qualifications We are seeking candidates with: A PhD in Physics, Applied Physics, Nanotechnology, Computer Science, Engineering, or a
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atoms are the third ingredient, and we will use the tools of atomic physics to cool and trap atoms and couple their quantum states to light and mechanical motion. By exploiting this interaction, we will
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Technology Laboratory (QTL) , we explore how quantum physics can unlock radically new ways of processing information - far beyond the limits of classical systems. Our research spans quantum computing, sensing
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renovated lab space and a state-of-the-art nanofabrication facility. At the Quantum Technology Laboratory , we explore how quantum physics can unlock radically new ways of processing information - far beyond
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We are looking for a Doctoral student to become part of our team at the Division of Applied Quantum Physics at the Department of Microtechnology and Nanoscience. Join our innovative theory team and