Quantum Computer: Towards Realizing Quantum Processors with Single-Atom Arrays

Meeting & Discussion

Technology Introduction:
We use a spatial light modulator to generate two-dimensional optical tweezer arrays and trap single atoms. Qubits are encoded in hyperfine atomic states. Single qubit gates are realized by microwave or laser Raman transition. Two qubit gates are realized by laser-controlled Rydberg dipolar interactions. Quantum algorithm is realized by using mobile tweezers to transport atoms to Raman and Rydberg laser interaction zones to conduct the quantum circuit of one- and two-qubit gate sets.
Industry Applicability:
Atom-based quantum processor can be used to solve the graph combinational optimization problem, e. g. it can be applied to finding the most economical solution of electric vehicle stations or public bicycle stations problem. It can be used in quantum machine learning problem, such as the identification of toxic molecules or the prediction of timeseries.

Academia Sinica

Founded in 1928, Academia Sinica has earned a reputation for being Taiwan’s national academic institution. Our statutory mission is to pursue research excellence, nurture academic talent, and issue policy advisories. Academia Sinica currently has 24 institutes and 9 research centers located in three research sections: the Mathematics and Physical Sciences Division, Life Sciences Division, and Division of Humanities and Social Sciences. There are currently over 8,000 research fellows, research technicians, assistants, and administrative staff, making it a rare research institution internationally that achieves a balanced development in both natural sciences and humanities and social sciences.