Wake Forest University
Center for Nanotechnology and Quantum Materials
NanoteQ
The Quantum Systems Lab
QSL
quantum group's webpage
Wake Forest's NanoteQ has partnered with Quoherent Inc. for the design and development of quantum computing platforms based on the complex topological systems first discovered here. These systems use entanglement of topologically protected states to engineer qubits capable of functioning at or near room temperature.
This research brings together a team of researchers from around the world to address everything from the fundamental nature of these complex topological objects to the functioning of qubits and quantum registers, to the implementation of gate structures and quantum logic using them.
QSL is NanoteQ's primary resource for quantum and magneto- transport, qubit tomography, and gate fidelity studies. It is equipped with a broad range of circuit analysis with characterization bandwidths into the GHz, as well as low temperature (>300 mK) and magnetic field capabilities.
One of the topological oddities we study in the group. This particular morphology we refer to as a "SQUIRL" and it has some very bizarre properties. Notice the moiré fringes across the structure. These we placed there on purpose.
One of our cryostats. A Janis Research 16 CNDT- SuperVariTemp Cryostat + Dewar. System equipped with 12T magnet. It is setup to run at I/O frequencies as high as 7 GHz.
Current research projects ...
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Project 1: Quantum oscillator circuit design for I/O of quantum states in our topological states.
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Project 2: Addressing the SQUIRL with photonic architectures.
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Project 3: Qubit tomography of SQUIRL-mon system.
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Project 4: T-gate and CNOT gate mobile demonstration devices and gate fidelity measurements.
Project 5: Floquet state driving of multiply entangled manifolds to determine system dynamics.