%0 Generic
%A Franse, Jasper
%A Steele, Gary
%D 2024
%T Data underlying the PhD thesis: Quantum Acoustics with high-overtone bulk resonators and superconducting qubits
%U 
%R 10.4121/fe176584-e015-4019-8e5d-a2c0f998932f.v2
%K Transmon
%K qubit
%K Highovertone bulk acoustic resonator (HBAR)
%K HBAR
%K superconducting
%K Quantum acoustic
%K cQED
%K cQAD
%X <p>We measured a transmon qubit coupled to an High-overtone Bulk Acoustic Resonator (HBAR) which was fabricated in the cleanroom of Kavli Nanolab Delft.</p><p><br></p><p>The fabricated chip was cooled down to ~20 mK in a commercially bought cryofree dilution refrigerator (Oxford Instruments Triton 200). All measurements (single and two tone spectroscopy) were performed on a Vector Network Analyzer (VNA, Keysight PNA N5222A, 10MHz-26.5 GHz) which was connected to the sample using microwave RF cables. Using additional signal generators (Rohde &amp; Schwarz, SMB 100A, 100 kHz - 12.75 GHz) we were able to produce more needed continuous wave tone to AC-Stark shift the qubit. A pulse generator (Rigol DG1022) in combination with a microwave switch (Taylor MW switch SBS-A01TS), both connected to the VNA were used to performed gated two tone spectroscopy for time domain measurement.</p>
%I 4TU.ResearchData