Direct counterfactual quantum-communication protocol beyond a single-photon source

The direct counterfactual quantum communication protocol involving double chained Mach‐Zehnder interferometers requires a single photon input. Here, we show that even with multiphoton light sources, including a strong coherent light source as inputs, the counterfactual communication can be achieved with success probability approaching unity in the ideal asymptotic limit. The path evolution of multiple photons is non‐locally controlled. Thus, information is transmitted without any photons, or any other auxiliary information carriers, appearing in the public transmission channel. The effect is quantum since quantum measurements are essential requirement for this protocol. Furthermore, a modified scheme is proposed in which number of interferometers is reduced.

[1]  John Rarity,et al.  Counterfactual ghost imaging , 2020, npj Quantum Information.

[2]  Philip D. Plowright Front , 2019, 2020 Fourth World Conference on Smart Trends in Systems, Security and Sustainability (WorldS4).

[3]  J. Rarity,et al.  How Quantum is Quantum Counterfactual Communication? , 2019, Foundations of Physics.

[4]  M. Hochberg,et al.  Trace-free counterfactual communication with a nanophotonic processor , 2019, npj Quantum Information.

[5]  Hyundong Shin,et al.  Counterfactual Bell-State Analysis , 2018, Scientific Reports.

[6]  Shi-Yao Zhu,et al.  The Experimental Demonstration of High Efficiency Interaction-free Measurement for Quantum Counterfactual-like Communication , 2017, Scientific Reports.

[7]  Zhu Cao,et al.  Direct counterfactual communication via quantum Zeno effect , 2017, Proceedings of the National Academy of Sciences.

[8]  Qi Guo,et al.  Counterfactual quantum-information transfer without transmitting any physical particles , 2015, Scientific Reports.

[9]  Hatim Salih,et al.  Protocol for Counterfactually Transporting an Unknown Qubit , 2014, Front. Phys..

[10]  Nicholas A. Peters,et al.  Counterfactual quantum computation through quantum interrogation , 2006, Nature.

[11]  R. Dicke,et al.  Interaction‐free quantum measurements: A paradox? , 1981 .