Counterfactual Concealed Telecomputation
Abstract
Distributed computing is a fastest growing field -- enabling virtual computing, parallel computing, and distributed storage. By exploiting the counterfactual techniques, we devise a distributed blind quantum computation protocol to perform a universal two-qubit controlled unitary operation for any input state without using preshared entanglement and without exchanging physical particles between remote parties. This distributed protocol allows Bob to counterfactully apply an arbitrary unitary operator to Alice's qubit in probabilistic fashion, without revealing the operator to her, using a control qubit -- called the counterfactual concealed telecomputation (CCT). It is shown that the protocol is valid for general input states and that single-qubit unitary teleportation is a special case of CCT. The quantum circuit for CCT can be implemented using the (chained) quantum Zeno gates and the protocol becomes deterministic with simplified circuit implementation if the initial composite state of Alice and Bob is a Bell-type state.
Cite
@article{arxiv.2012.04948,
title = {Counterfactual Concealed Telecomputation},
author = {Fakhar Zaman and Hyundong Shin and Moe Z. Win},
journal= {arXiv preprint arXiv:2012.04948},
year = {2021}
}
Comments
14 Pages (5 pages for main text and 9 pages for Supplemental Material) and 12 Figures. arXiv admin note: substantial text overlap with arXiv:1910.03200