目前我們實驗室對於單個超導量子位元的量測與控制已逐漸成熟,接下來的目標則是研究雙量子位元的控制。在這篇論文裡,我介紹了一些有關單個超導量子位元、超導共面波導共振腔與雙量子位元之間耦合強度的設計方法,我們設計兩種方式做雙量子位元之間的耦合,一種是利用電容耦合,第二種是利用共振腔耦合,也介紹在我們實驗室的製程發展,最後是有關於雙量子位元元件的量測與分析,我的主要目標是著重於利用高頻連續波的測量,觀察雙量子位元之間的作用,從結果有得到單個量子位元的特性,與設計相當接近,雖然沒有直接看到雙兩子位元之間的耦合,但有觀察到耦合的跡象。;In our lab, the control of single superconducting transmon qubit is complete gradually. Next, we aim to use tunable superconducting transmon qubits to experimentally realize the programmable two-qubit interaction. In this thesis, I introduce the method for the design of a transmon qubit, coplanar waveguide quarter wave resonator and the interaction between two qubits. The coupling between two qubits is via a direct capacitance or via a resonator bus. The fabrication process developed in our lab is also described. The target of my thesis is to use continuous wave measurement to identify the coupling between two superconducting transmon qubits. The experimental results give a good characteristic for a single-qubit system, but the evidence for coupling between two qubits is absent. However, in the two-tone measurement, the results show the hint for the two-qubit coupling.
