Event Details
Speaker Name
Anantha Rao
Speaker Institution
QuICS
Start Date & Time
2024-11-22 12:00 pm
Semester
Event Details

Abstract: Arrays of gate-defined semiconductor quantum dots are among the leading candidates for building scalable quantum processors. 

High-fidelity initialization, control, and readout of spin qubit registers require exquisite and targeted control over key Hamiltonian parameters that define the electrostatic environment. 

However, due to the tight gate pitch, capacitive crosstalk between gates hinders independent tuning of chemical potentials and interdot couplings. 

While virtual gates offer a practical solution, determining all the required cross-capacitance matrices accurately and efficiently in large quantum dot registers is an open challenge.

Here, we establish a Modular Automated Virtualization System (MAViS) -- a general and modular framework for autonomously constructing a complete stack of multi-layer virtual gates in real time. 

Our method employs machine learning techniques to rapidly extract features from two-dimensional charge stability diagrams.  

We then utilize computer vision and regression models to self-consistently determine all relative capacitive couplings necessary for virtualizing plunger and barrier gates in both low- and high-tunnel-coupling regimes.

Using MAViS, we successfully demonstrate accurate virtualization of a dense two-dimensional array comprising ten quantum dots defined in a high-quality Ge/SiGe heterostructure. 

Our work offers an elegant and practical solution for the efficient control of large-scale semiconductor quantum dot systems.

Pizza and drinks will be served after the seminar in ATL 2117.

Location
ATL 2324
Misc
Groups