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Main Authors: Hao, Chaolong, Ma, Quangong, Qu, Dan, Shi, Dawei
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2501.07578
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author Hao, Chaolong
Ma, Quangong
Qu, Dan
Shi, Dawei
author_facet Hao, Chaolong
Ma, Quangong
Qu, Dan
Shi, Dawei
contents In quantum mechanics, measurements of a quantum state in various directions yield distinct outcomes, a principle that forms the foundation of quantum communication theory. This paper expands upon this concept by introducing a method to modify generator projection directions (MGPD) within quantum stabilizer codes. Employing the Steane code ($(7,1,3)$ code), as a fundamental carrier, we develop a novel scheme for direct quantum steganography across a single-type Pauli channel. The infeasibility of eavesdropping decoding under MGPD is proven. We detail the steganographic encoding and decoding schemes, corresponding quantum circuits, and eavesdropping detection principles. We also use a 'Sudoku'-style strategy to balance steganographic error probabilities and provide the complete steganography protocol. Relative to existing studies, the MGPD method achieves embedding rates approaching and attaining the upper limit of the information capacity for the $(n,k,d)=(7,1,3)$ code within a noise probability range of approximately $1/(n+1)=12.5\%$. It also reduces the consumption of auxiliary keys from $O(\log{(N)})$ to $O(1)$, while enabling eavesdropping detection and steganography of arbitrary quantum states. We investigate its potential applications in quantum communication and assess its benefits in the context of secret information transmission and eavesdropping detection in noisy channels. Although the MGPD method incorporates certain idealized assumptions and limitations, it provides novel perspectives on the concealment of quantum information.
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spellingShingle Quantum Direct Steganography Scheme Based on Modified Generator Projection Directions of Steane Code over a Single-Type Pauli Channel
Hao, Chaolong
Ma, Quangong
Qu, Dan
Shi, Dawei
Quantum Physics
In quantum mechanics, measurements of a quantum state in various directions yield distinct outcomes, a principle that forms the foundation of quantum communication theory. This paper expands upon this concept by introducing a method to modify generator projection directions (MGPD) within quantum stabilizer codes. Employing the Steane code ($(7,1,3)$ code), as a fundamental carrier, we develop a novel scheme for direct quantum steganography across a single-type Pauli channel. The infeasibility of eavesdropping decoding under MGPD is proven. We detail the steganographic encoding and decoding schemes, corresponding quantum circuits, and eavesdropping detection principles. We also use a 'Sudoku'-style strategy to balance steganographic error probabilities and provide the complete steganography protocol. Relative to existing studies, the MGPD method achieves embedding rates approaching and attaining the upper limit of the information capacity for the $(n,k,d)=(7,1,3)$ code within a noise probability range of approximately $1/(n+1)=12.5\%$. It also reduces the consumption of auxiliary keys from $O(\log{(N)})$ to $O(1)$, while enabling eavesdropping detection and steganography of arbitrary quantum states. We investigate its potential applications in quantum communication and assess its benefits in the context of secret information transmission and eavesdropping detection in noisy channels. Although the MGPD method incorporates certain idealized assumptions and limitations, it provides novel perspectives on the concealment of quantum information.
title Quantum Direct Steganography Scheme Based on Modified Generator Projection Directions of Steane Code over a Single-Type Pauli Channel
topic Quantum Physics
url https://arxiv.org/abs/2501.07578