Quantum Sensing & Metrology
With exquisite control over single atoms and photons, we aim to build measurement tools of unprecedented precision for magnetic fields, gravity and time. Society has already benefited from a first wave of quantum technologies such as the atomic clock and magnetic resonance imaging. Scientists see potential to improve measurement tools and unlock new applications thanks to modern experimental techniques.
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Area Keywords: accelerometer, atom-light interaction
Area Keywords: Casimir-Polder, general relativity, inertial sensors, optical clock
Area Keywords: atom-light interaction, superconducting qubits, trapped ions, ultracold atoms
Area Keywords: frequency comb, laser spectroscopy
Area Keywords: atom-light interaction, atomtronics, hybrid systems, superconducting qubits
Area Keywords: beyond Heisenberg, dark matter, noise, quantum feedback, trapped ions
Area Keywords: atomic clocks, frequency metrology, precision measurement
Area Keywords:
Area Keywords: accelerometer, bio magnetism, gravimetry, magnetometry, navigation
Area Keywords: quantum networks, rare-earth ions, spin defects, superconducting circuits
Area Keywords: atomic clocks, global timekeeping, stable lasers
