The 202Q-Lab at Chalmers has hosted a range of master’s and bachelor’s theses at the intersection of quantum information, quantum computing, and AI-driven approaches to physics. These projects reflect the contributions of talented students who worked closely with our research team on real, hands-on challenges in quantum science.
Explore some of the completed theses below to see the kinds of work our alumni have done in the lab.
Josephson Junctions for Metamaterial Arrays.
Hogedal, E. (2022)
Engineering a three-atom interaction for qubit reset.
Jamet Suria, P. (2022)
Quantum thermal machine driven by electrical noise.
Sundelin, S. (2022)
Automating Qubit Tune-up and Mixer Calibration.
Abram, H., Jirlow, M. & Heuts, O. (2021)
Quantum Limited Amplifier.
Alcalde-Herraiz, N., Andersson, L., Hagström, I. & Jamet Suria, P. (2021)
Scalable signal mixer stages in quantum processors.
Andersson, L., Folkesson, R., Jonasson, A. & Reiner, S. (2021)
Infrared-Blocking Filters For Use In Qubit Lines.
Giraudo, A. (2021)
Implementing and Optimizing Shor’s Algorithm for Native Gate Sets Using Qiskit.
Offerman, T. & Ciroth, N. (2021)
Effects of the environment on quantum systems: decoherence, bound states and high impedance in superconducting circuits.
Scigliuzzo, M. (2021)
Developing Virtual Instruments for Control and Automation of a Quantum Processor via Specialised FPGA Hardware.
Blomberg, J. & Grännsjö, G. (2020)
Engineering decay rates of Hybridised modes in Superconducting circuits.
Patel, K. (2020)