Meet the Team
Staff
Giovanna Tancredi
Group Leader & PI
Design and control of superconducting processors, with a strong interest in the scaling of quantum processors.
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Per Delsing
PI
On-chip quantum optics, development of quantum-limited amplifiers, effect of radiation in quantum processors.
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Michele Faucci Giannelli
Researcher
PI for LUMIQ, Calibration and other software applications
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Robert Rehammar
Researcher
Scaling and packaging of quantum computing. This includes signal conditioning, shielding and miniaturization.
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Ingrid Strandberg
Researcher
Theoretical and experimental experience with both continuous and discrete variable superconducting systems.
Latest focus: preparing to run an algorithm on Chalmers' largest qubit device.
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Abdullah Al Amin
Research Engineer
Precise characterization and high-fidelity calibration of superconducting quantum chips,
enabling reliable and scalable quantum performance.
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Christian Krizan
Research Engineer
Experimental QED research spanning quantum circuit compilation with larger gate sets, control interface hardware, and transition frequency manipulation for transmons.
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Snigdha Mantry
Research Engineer
Understanding the impact of cosmic rays on superconducting qubits and mitigating radiation-induced errors in quantum processors.
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Andreas Nylander
Research Engineer
Development and optimization of nanofabrication processes.
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Marcus Rommel
Research Engineer
Within QT, focus on nanofabrication process development, 3D integration and manufacturabilty for our QPUs.
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Postdocs
Irshad Ahmad
Improving superconducting qubit coherence by studying loss mechanisms and developing advanced superconducting materials.
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Tangyou Huang
Quantum information processing using optimal control and machine learning, spanning both theory and experiment.
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Hadi Khaksaran
Developing fabrication processes for superconducting through-silicon vias and integrating them into quantum processors.
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Mamta Mamta
Developing an in-house flip-chip bump fabrication process and studying how this process influence qubit performance and device reliability.
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David Niepce
Superconducting quantum hardware and scalable design methods for next-generation quantum processors,
with a focus on flip-chip architectures, simulation-driven design, and experimental device development
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Hampus Renberg Nilsson
Parametric amplification and travelling-wave parametric amplifiers.
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Matteo Robbiati
Full-stack quantum computing software, from classical simulation to calibration of quantum devices.
Near-term algorithmic solutions for error mitigation and optimization.
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PhD Students
Anuj Aggarwal
Improving two qubits gate performance by implementation of high fidelity adiabatic CZ gate.
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Axel Andersson
Implementing early fault-tolerant protocols on superconducting quantum processors.
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Albin Edenmyr
Miniaturization of superconducting components for scaling quantum circuits.
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Theresa Fuchs
Investigating how magnetic AC-flux crosstalk affects the performance of our 25-qubit processor.
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Emil Hogedal
Developing superconducting qubit hardware with a focus on faster, highβfidelity readout and gate operations.
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Halldor Jakobsson
Implementing adiabatic CZ gates as the native two qubit gate for our processors.
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Joel Arvid SandΓ₯s
Parametric CZ-gate calibrations on a large superconducting quantum device.
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Master Students
- Carl Svensson
- Wirunwit Worawirat
- David Gudowska
- Julius Γmer Andersson
- Quan Trinh
- Job Winkel
- Filip Eriksson
- Eric SΓΆderberg
- Grim Wijkmark