Master Theses
The following Master theses represent 6 months of research carried out in our group.
Luca Herrmann (2024):
Simulations and measurements of high-frequency transmons for a quantum transduction experiment
Felix Fischer (2023):
Development of Niobium Superconducting Microwave Resonators
August Röell (2023):
Design and Microfabrication of High-Overtone Bulk Acoustic Resonators
Sathyanarayanan Raamamurthy (2023):
Incorporating Planar Qubits and Resonators in circuit Quantum Acoustodynamics
Joost Bus (2023):
Microfabrication of acoustic cavities
Angelos Pappasi (2023):
Characterization of Lithium Niobate for High–Overtone Bulk Acoustic Wave Devices
Jacob Werner (2023):
Pulsed optomechanics using high-overtone bulk acoustic wave resonators
Stefano Marti (2022):
Optimization of phononic radiation loss patterns in a high overtone bulk acoustic resonator
Alessandro Bruno (2022):
Parameter estimation for creating Schr ̈odinger cat states in an electromechanical system
Giacomo Bisson (2022):
Localized source of quasiparticles in superconducting qubits
Pedro Rosso (2022):
Engineering Eigenstates in High-Overtone Bulk Acoustic Resonators
Michael von Arb (2021-2022):
Method Refinement and Characterization of Bulk Acoustic Wave Resonators for Brillouin Optomechanical Frequency Conversion
Thomas Palmen (2021):
Grayscale Lithography For The Fabrication Of ħBARs
Hugo Banderier (2021):
Towards a hybrid EPR method for cQAD devices
Francesco Adinolfi (2021):
Towards microwave to optical transduction for superconducting qubits
Alexandra Bernasconi (2020-2021):
Designing Acoustic Mode Shapes for Microwave to Optical Transduction
Yu Yang (2019-2020):
Characterizing electromechanical coupling with multiplexed spectroscopy
Silvan Vollenweider (2019-2020):
A cryogenic optical cavity for Brillouin cavity optomechanics