2026-06-13T21:25:31Zhttps://www.radar-service.eu/oai/OAIHandler10.35097/11892023-11-15T14:44:33Zradar4kit
10.35097/1189
Bilmes, Alexander
Alexander
Bilmes
Additional data for the dissertation: Resolving locations of defects in superconducting transmon qubits
Karlsruhe Institute of Technology
2019
2023
Physics
Superconducting qubit
transmon
material defects
decoherence
Two-Level-Systems
TLS
tunneling defects
quantum bit
quantum information
defect location
Xmon qubit
quantum computation
microwave application
microwave resonator
micro fabrication
Josephson junction
junction fabrication
Al/AlOx/Al junction
EB lithography
electron-beam lithography
shadow evaporation
Dolan-Nienmeyer technique
tilted-angle deposition
Open Access
Creative Commons Attribution Non Commercial Share Alike 4.0 International
Bilmes, Alexander
Arbeitsgruppe A. V. Ustinov, Physikalisches Institut, KIT
Simulation and measurement data used in the dissertation manuscript by Alexander Bilmes(1) "Resolving locations of defects in superconducting transmon qubits" (defense on 8Feb2019, Referent Prof. A.V. Ustinov, Koreferent: Prof. A. Shnirman ), published via KITopen in Aug2018.
(1) Physikalisches Institut, KIT, Wolfgang-Gaedestr. 1, 76137 Karlsruhe
DOI of this data publication: 10.5445/IR/1000097356
zip files:
part1-3: simulation data
part4: matlab functions to generate plots contained in the dissertation manuscript
after unzipping, you will find the following folders:
- Fig2_3: matlab function and data used to generate the figure 2.3
- Fig4_3: matlab function and data used to generate the figure 4.3
- FigD2: matlab function and data used to generate the figure D.2
- TLS-locations\TLS_locations_allQubs_publish.m: matlab function used for the analyzis of TLS locations, and generation of Figures 2.10, 2.11, 4.6-4.8, 4.12-4.14, D.1, E.5, E.6, E.8, F.1
- TLS-locations\errorEstimation_InterfaceParticipation_publish.m: matlab function to estimate the errors presented in Equation 4.7 (Output files Pint_QB2_runAug2018 and Pint_QB2_runAug2018_roughSweep can be plotted with the same function: set the variable "loadprevious" to 1)
- E-field_simulations_2D_1 and _2D_2 and _3D: simulation data used in the analyzis above.
- E-field_simulations_2D_2\Exported_Data\path_along_film-edge-profile: matlab function to generate the points at the film edge profile (2D model), at which the electric field shall be exported from the simulation model
- E-field_simulations_3D\Exported_Data\potential_for_2D-simu_V5_2_10: data exported from the 3D model to find the effective potential for the electrodes in the 2D model (see Fig 4.4 c)
- E-field_simulations_3D\Exported_Data\Field_Along_Edges: exported data of electric fields along the fim edge in the 3D model, presented in Figs. 4.6 and F.6
10.5445/IR/1000097356
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