A Quantum Walk-Enabled Blockchain with Weighted Quantum Voting Consensus
Abstract
Quantum blockchains provide inherent resilience against quantum adversaries and represent a promising alternative to classical blockchain systems in the quantum era. However, existing quantum blockchain architectures largely depend on entanglement to maintain inter-block connections, facing challenges in stability, consensus efficiency, and system verification. To address these issues, this work proposes a novel quantum blockchain framework based on quantum walks, which reduces reliance on entanglement while improving stability and connection efficiency. We further propose a quantum consensus mechanism based on a weighted quantum voting protocol, which enables a fairer voting process while reflecting the weights of different nodes. To validate the proposed framework, we conduct circuit simulations to evaluate the correctness and effectiveness of both the quantum walk-based block construction and the quantum voting consensus mechanism. Compared with existing entanglement-dependent approaches, our framework achieves stronger stability and enables simpler verification of block integrity, making it a practical candidate for quantum-era blockchain applications.
Cite
@article{arxiv.2510.07874,
title = {A Quantum Walk-Enabled Blockchain with Weighted Quantum Voting Consensus},
author = {Chong-Qiang Ye and Heng-Ji Li and Jian Li and Xiao-Yu Chen},
journal= {arXiv preprint arXiv:2510.07874},
year = {2025}
}
Comments
13 pages, 10 figures