Are you passionate about quantum technologies and eager to further develop a Rydberg atom quantum computing platform as a 24/7 user-facility, in the context of the Flagship program EuRyQa? Join us! The overall objective of EuRyQa is to establish Rydberg quantum processors as a leading platform for scalable quantum computing. We develop and bring together the technology for realizing deep quantum circuits from four complementary European platforms, provide Europe-wide benchmarking on concrete computational problems and the next crucial steps towards fault-tolerant quantum computing.
Our platform for hybrid quantum computing and quantum simulation is formed around a quantum co-processor, with qubits based on ultracold atoms. We operate both a rubidium and strontium-based testbed. With optical tweezers these atoms are held in a lattice configuration with good controllability and readout. With excitation to Rydberg states, strong nearest-neighbor coupling can be realized, giving rise to multi-qubit entanglement. This platform is very suitable for specific tasks such as hybrid algorithms for quantum chemistry problems. The goal for the platform is a robust setup to contain single atoms reliably in optical tweezers, with excellent single- and multi-qubit control. The setup aims for high stability to make it suitable for 24/7 online access. More information: www.tue.nl/rydbergQC.
Concretely, the candidate will focus on:
Experiments for characterization, calibration and operation of Rydberg atom-based quantum computer.
Utilize the Rb clock transition as qubit for long coherence times of >100ms.
A complete and scalable quantum instruction set optimized for large qubit arrays.
Employment of pulse-optimized multi-qubit gates that reduce the overall gate time (using intensity- and frequency-shaped laser pulses).
Implementation of quantum error correction protocols optimized for Rydberg QC. Collaboration between experimental and theoretical groups and industry partners to achieve the best performance.
PhD position in Qubit hardware for hybrid quantum computing
Are you passionate about quantum technologies and eager to further develop a Rydberg atom quantum computing platform as a 24/7 user-facility, in the context of the Flagship program EuRyQa? Join us! The overall objective of EuRyQa is to establish Rydberg quantum processors as a leading platform for scalable quantum computing. We develop and bring together the technology for realizing deep quantum circuits from four complementary European platforms, provide Europe-wide benchmarking on concrete computational problems and the next crucial steps towards fault-tolerant quantum computing.
Our platform for hybrid quantum computing and quantum simulation is formed around a quantum co-processor, with qubits based on ultracold atoms. We operate both a rubidium and strontium-based testbed. With optical tweezers these atoms are held in a lattice configuration with good controllability and readout. With excitation to Rydberg states, strong nearest-neighbor coupling can be realized, giving rise to multi-qubit entanglement. This platform is very suitable for specific tasks such as hybrid algorithms for quantum chemistry problems. The goal for the platform is a robust setup to contain single atoms reliably in optical tweezers, with excellent single- and multi-qubit control. The setup aims for high stability to make it suitable for 24/7 online access. More information: www.tue.nl/rydbergQC.
Concretely, the candidate will focus on:
Experiments for characterization, calibration and operation of Rydberg atom-based quantum computer.
Utilize the Rb clock transition as qubit for long coherence times of >100ms.
A complete and scalable quantum instruction set optimized for large qubit arrays.
Employment of pulse-optimized multi-qubit gates that reduce the overall gate time (using intensity- and frequency-shaped laser pulses).
Implementation of quantum error correction protocols optimized for Rydberg QC. Collaboration between experimental and theoretical groups and industry partners to achieve the best performance.
Checkout: https://jobs.tue.nl/en/vacancy/phd-position-in-qubit-hardware-development-for-hybrid-quantum-computing-1053388.html