Protecting Quantum Information in Quantum Dot Spin Chains by Driving Exchange Interactions Periodically

John Van Dyke; Yadav Kandel; Haifeng Qiao; John Nichol; Sophia Economou; Edwin Barnes

Protecting Quantum Information in Quantum Dot Spin Chains by Driving Exchange Interactions Periodically

ORAL

Abstract

We analyze a new type of discrete time crystalline behavior that is obtained by periodically driving exchange interactions in a Heisenberg spin chain. This behavior is shown to benefit the protection and manipulation of multi-spin quantum states. We use these ideas to further construct a time-crystal-inspired CZ gate between singlet-triplet qubits with high fidelity. Our results indicate that periodically driving exchange couplings can enhance the performance of quantum dot spin systems for quantum information applications.

^*This work is supported by DARPA Grant No. D18AC00025.

March 15, 2021, 3:24 PM – March 15, 2021, 3:36 PM

Presenters

John Van Dyke
- Virginia Tech

Authors

John Van Dyke
- Virginia Tech
Yadav Kandel
- University of Rochester
Haifeng Qiao
- University of Rochester
John Nichol
- University of Rochester
Sophia Economou
- Virginia Tech
- Virginia Tech, Blacksburg
- Physics, Virginia Tech
Edwin Barnes
- Virginia Tech
- Virginia Tech, Blacksburg
- Physics, Virginia Tech