IST Austria Thesis
Nowadays, quantum computation is receiving more and more attention as an alternative to the classical way of computing. For realizing a quantum computer, different devices are investigated as potential quantum bits. In this thesis, the focus is on Ge hut wires, which turned out to be promising candidates for implementing hole spin quantum bits. The advantages of Ge as a material system are the low hyperfine interaction for holes and the strong spin orbit coupling, as well as the compatibility with the highly developed CMOS processes in industry. In addition, Ge can also be isotopically purified which is expected to boost the spin coherence times. The strong spin orbit interaction for holes in Ge on the one hand enables the full electrical control of the quantum bit and on the other hand should allow short spin manipulation times. Starting with a bare Si wafer, this work covers the entire process reaching from growth over the fabrication and characterization of hut wire devices up to the demonstration of hole spin resonance. From experiments with single quantum dots, a large g-factor anisotropy between the in-plane and the out-of-plane direction was found. A comparison to a theoretical model unveiled the heavy-hole character of the lowest energy states. The second part of the thesis addresses double quantum dot devices, which were realized by adding two gate electrodes to a hut wire. In such devices, Pauli spin blockade was observed, which can serve as a read-out mechanism for spin quantum bits. Applying oscillating electric fields in spin blockade allowed the demonstration of continuous spin rotations and the extraction of a lower bound for the spin dephasing time. Despite the strong spin orbit coupling in Ge, the obtained value for the dephasing time is comparable to what has been recently reported for holes in Si. All in all, the presented results point out the high potential of Ge hut wires as a platform for long-lived, fast and fully electrically tunable hole spin quantum bits.
Watzinger H. Ge Hut Wires - from Growth to Hole Spin Resonance. IST Austria; 2018. doi:10.15479/AT:ISTA:th_1033
Watzinger, H. (2018). Ge hut wires - from growth to hole spin resonance. IST Austria. https://doi.org/10.15479/AT:ISTA:th_1033
Watzinger, Hannes. Ge Hut Wires - from Growth to Hole Spin Resonance. IST Austria, 2018. https://doi.org/10.15479/AT:ISTA:th_1033.
H. Watzinger, Ge hut wires - from growth to hole spin resonance. IST Austria, 2018.
Watzinger H. 2018. Ge hut wires - from growth to hole spin resonance, IST Austria, 77p.
Watzinger, Hannes. Ge Hut Wires - from Growth to Hole Spin Resonance. IST Austria, 2018, doi:10.15479/AT:ISTA:th_1033.
IST-2018-1033-v1+1_thesis.pdf 85.54 MB
IST-2018-1033-v1+2_Thesis_HWs_for_PupRep.zip 488 bytes