Hybrid spin-mechanical setups offer a versatile platform for quantum science and technology, but improving the spin-phonon as well as the spin-spin couplings of such …
XL Dong, PB Li, T Liu, F Nori - Physical Review Letters, 2021 - APS
We predict a set of unusual quantum acoustic phenomena resulting from sound-matter interactions in a fully tunable solid-state platform in which an array of solid-state spins in …
Y Wang, JL Wu, JX Han, Y Xia, YY Jiang, J Song - Physical Review Applied, 2022 - APS
We propose how to achieve strong phonon blockade (PB) in a hybrid spin-mechanical system in the weak-coupling regime. We demonstrate the implementation of magnetically …
We investigate quantum emitters (QEs) interacting with a photonic structured bath made of bilayer square lattices, where the resonance anticrossing between the energy bands opens …
Generating Greenberger-Horne-Zeilinger (GHZ) states of solid-state spins is of great significance for quantum metrology and quantum error correction. We propose here an …
We propose an efficient method to generate single-phonon Fock states by exploiting a previously unidentified phonon blockade mechanism in a hybrid spin-mechanical system …
XL Hei, XL Dong, JQ Chen, CP Shen, YF Qiao, PB Li - Physical Review A, 2021 - APS
Hybrid quantum systems involving solid-state spins and superconducting microwave cavities play a crucial role in quantum science and technology, but improving the spin …
YF Qiao, HZ Li, XL Dong, JQ Chen, Y Zhou, PB Li - Physical Review A, 2020 - APS
Multiparticle entanglement is of great significance for quantum metrology and quantum information processing. We present here an efficient scheme for generating stable …
In this paper, we employ the atomic arrays in one-dimensional optical waveguides to simulate topological phases, where the waveguide is modeled as a one-dimensional …