Welcome to the Quantum Nanoelectronics Laboratory!
The Quantum Nanoelectronics Laboratory investigates the quantum coherence of condensed matter systems ranging from single-quantum devices, such as squeezed states in high-Q cavities, to engineered many-body quantum states of microwave light which can be used to study quantum thermodynamics...
Latest Projects
Quantum Simulation Group
As engineered quantum systems become more complex, they inevitably interact more closely with the environment…
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Advanced Measurement Group
Coherence times in superconducting qubits in the very best devices are around 100 microseconds but…
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Quantum Architecture Group
The circuit QED paradigm has enabled a wide variety of experiments demonstrating quantum interactions between…
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Cryogenic Technologies
Dilution Fridge
A dilution refrigerator is capable of cooling amplifiers down to 10mK (-459.382 ºF). This is colder than outer space.
Resonator
Our resonators are high-Q superconducting microwave devices, which can be capacitively coupled to a common feedline for qubit measurement.
Parametric Amplifier
Josephson parametric amplifier is a superconducting device that amplifies small microwave signals with nearly quantum-limited noise performance.
Qubit
Qubit is a quantum mechanical two-level system that exists in a superposition of its basis states. It is realized as a macroscopic object that can be experimentally addressed for control and measurement with the proper choice of circuit parameters and operating conditions.