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Quantum Algorithms
State Transfer and Readout Times for Trees of Diameter 4
arXiv
Authors: Stephen Kirkland, Christopher M. van Bommel
Year
2024
Paper ID
66235
Status
Preprint
Abstract Read
~2 min
Abstract Words
174
Citations
N/A
Abstract
We consider the state transfer properties of continuous time quantum walks on trees of diameter 4. We characterize all pairs of strongly cospectral vertices in trees of diameter 4, finding that they fall into pairs of three different types. For each type, we construct an infinite family of diameter 4 trees for which there is pretty good state transfer between the pair of strongly cospectral vertices. Moreover, for two of those types, for each tree in the infinite family, we give an explicit sequence of readout times at which the fidelity of state transfer converges to 1. For strongly cospectral vertices of the remaining type, we identify a sequence of trees and explicit readout times so that the fidelity of state transfer between the strongly cospectral vertices approaches 1. We also prove a result of independent interest: for a graph with the property that the fidelity of state transfer between a pair of vertices at time tk converges to 1 as k → infty, then the derivative of the fidelity at tk converges to 0 as k → infty.
Why This Paper Matters
- It adds a 2024 reference point for readers tracking recent quantum research.
- We consider the state transfer properties of continuous time quantum walks on trees of diameter 4.
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