Information Carrier and Resource Optimization of Counterfactual Quantum Communication

TL;DR

This paper investigates what physically carries information in counterfactual quantum communication and proposes optimization strategies to improve resource efficiency, including channel usage, transmission time, and qubit requirements.

Contribution

It provides a detailed analysis of the information carrier in counterfactual quantum communication and introduces methods to optimize resource utilization.

Findings

Identifies the physical basis of information transfer in counterfactual protocols

Proposes optimization techniques for channel and qubit efficiency

Achieves reduced resource consumption in counterfactual communication

Abstract

Counterfactual quantum communication is unique in its own way that allows remote parties to transfer information without sending any message carrier in the channel. Although no message carrier travels in the channel at the time of successful information transmission, it is impossible to transmit information faster than the speed of light, thus without an information carrier. In this paper, we address an important question What carries the information in counterfactual quantum communication? and optimize the resource efficiency of the counterfactual quantum communication in terms of the number of channels used, time consumed to transmit 1-bit classical information between two remote parties, and the number of qubits required to accomplish the counterfactual quantum communication.