Related papers: Distinguishing multi-spin interactions from lower-order effects

Distinguishing multi-spin interactions from lower-order effects

URL: http://arxiv.org/abs/2111.12717v1
Date: Wed, 24 Nov 2021 19:00:01 GMT
Title: Distinguishing multi-spin interactions from lower-order effects
Authors: Thomas R. Bergamaschi, Tim Menke, William P. Banner, Agustin Di Paolo, Steven J. Weber, Cyrus F. Hirjibehedin, Andrew J. Kerman, and William D. Oliver
Abstract summary: Multi-spin interactions can be engineered with artificial quantum spins. It is challenging to verify such interactions experimentally. Here we describe two methods to characterize the $n$-local coupling of $n$ spins.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Multi-spin interactions can be engineered with artificial quantum spins. However, it is challenging to verify such interactions experimentally. Here we describe two methods to characterize the $n$-local coupling of $n$ spins. First, we analyze the variation of the transition energy of the static system as a function of local spin fields. Standard measurement techniques are employed to distinguish $n$-local interactions between up to five spins from lower-order contributions in the presence of noise and spurious fields and couplings. Second, we show a detection technique that relies on time dependent driving of the coupling term. Generalizations to larger system sizes are analyzed for both static and dynamic detection methods, and we find that the dynamic method is asymptotically optimal when increasing the system size. The proposed methods enable robust exploration of multi-spin interactions across a broad range of both coupling strengths and qubit modalities.

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