Litcius/Paper detail

Quantum Ising Hamiltonian Programming in Trio, Quartet, and Sextet Qubit Systems

Minhyuk Kim, Yunheung Song, Jaewan Kim, Jaewook Ahn

2020PRX Quantum30 citationsDOIOpen Access PDF

Abstract

Rydberg-atom quantum simulators are of keen interest because of their possibilities towards highdimensional qubit architectures. Here we report continuous tuning of quantum Ising Hamiltonians of Rydberg atoms in three-dimensional arrangements. Various connected graphs of Rydberg atoms constructed with vertices and edges respectively representing atoms and Rydberg-blockaded atom pairs, and their eigenenergies are probed along with their geometric intermediates during structural transformations. Conformation spectra of star, complete, cyclic, and diamond graphs are probed for four interacting atoms and antiprism structures for six atoms. The energy level shifts and merges of the tested structural transformations are clearly observed with Fourier-transform spectroscopy, in good agreement with the model few-body quantum Ising Hamiltonian. This result demonstrates the possibility of continuous geometry tuning and thus programming of many-body spin-Hamiltonian systems.

Topics & Concepts

Ising modelHamiltonian (control theory)Rydberg formulaQubitQuantumRydberg atomPhysicsQuantum mechanicsSpectral lineAtom (system on chip)Quantum annealingQuantum computerQuantum systemSquare antiprismMathematicsLattice (music)Quantum algorithmEnergy spectrumTheoretical physicsEnergy (signal processing)Quantum simulatorQuantum Computing Algorithms and ArchitectureQuantum many-body systemsCold Atom Physics and Bose-Einstein Condensates