Quantum Computation & Simulation
The promise that quantum computers can tackle problems beyond the reach of today’s most powerful supercomputers is driving research worldwide in universities and businesses. At CQT, we work on a broad array of research problems in quantum computing and simulation. Our team includes computer scientists designing quantum algorithms, theorists working on approaches to error correction and experimentalists developing quantum hardware.
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Area Keywords: origins of quantum supremacy
Area Keywords: gauge field, mesoscopic, topological physics, ultracold quantum gases
Area Keywords: algorithms, analogue quantum systems, machine learning, noisy-intermediate scale quantum computers, optimisation, quantum chemistry, quantum supremacy, simulators
Area Keywords: algorithms, complexity
Area Keywords: trapped ions
Area Keywords: algorithms, complexity
Area Keywords: dipolar molecules, quantum simulation with optical lattices, ultracold quantum gases
Area Keywords: algorithms, boson sampling, machine learning, noisy-intermediate scale quantum computers, quantum chemistry
Area Keywords: atomic qubits, quantum simulation, tweezer arrays
Area Keywords: Bose Hubbard, Kibble Zurek, thermodynamics, trapped ions
Area Keywords: algorithms
Area Keywords: algorithms, complexity
Area Keywords: fault-tolerant quantum computing, noise, quantum error correction
Area Keywords: algorithms, complexity, machine learning
Area Keywords: atomtronics, fluxonium, hybrid, superconducting qubits
Area Keywords: atomic qubits, optical lattices, ultracold atoms
Area Keywords: discord
Area Keywords: quantum information, solid state physics, superconducting qubits
