Litcius/Paper detail

Towards a Multiqudit Quantum Processor Based on a 171Yb+ Ion String: Realizing Basic Quantum Algorithms

I. V. Zalivako, Anastasiia S. Nikolaeva, A. S. Borisenko, A. E. Korolkov, Pavel Sidorov, Kristina P. Galstyan, Nikita V. Semenin, Vasilii N. Smirnov, Mikhail Aksenov, Konstantin M. Makushin, Evgeniy O. Kiktenko, Aleksey K. Fedorov, I. A. Semerikov, K. Yu. Khabarova, N. Kolachevsky

2025Quantum Reports13 citationsDOIOpen Access PDF

Abstract

We demonstrate a quantum processor based on a 3D linear Paul trap that uses Yb+171 ions with eight individually controllable four-level qudits (ququarts), which is computationally equivalent to a sixteen-qubit quantum processor. The design of the developed ion trap provides high secular frequencies and a low heating rate, which, together with individual addressing and readout optical systems, allows executing quantum algorithms. In each of the eight ions, we use four electronic levels coupled by E2 optical transition at 435 nm for qudit encoding. We present the results of single- and two-qubit operations benchmarking and realizing basic quantum algorithms, including the Bernstein–Vazirani and Grover’s search algorithms as well as H2 and LiH molecular simulations. Our results pave the way to scalable qudit-based quantum processors using trapped ions.

Topics & Concepts

String (physics)QuantumQuantum computerAlgorithmComputer scienceQuantum algorithmPhysicsTheoretical physicsQuantum mechanicsQuantum Computing Algorithms and ArchitectureQuantum Information and Cryptography