Ensemble-Based Quantum-Token Protocol Benchmarked on IBM Quantum Processors
| Autor: | Tsunaki, Lucas, Bauerhenne, Bernd, Xibraku, Malwin, Garcia, Martin E., Singer, Kilian, Naydenov, Boris |
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| Rok vydání: | 2024 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| Popis: | Quantum tokens envision to store unclonable authentication keys in quantum states that are issued by a bank for example. In contrast to quantum communication, the information is not transmitted, but rather used for personal authentication in a physical device. Still, its experimental realization faces many technical challenges. In this work, we propose an ensemble-based quantum-token protocol, making these applications technologically less-demanding. A simple and minimal model is developed to describe the quantum token hardware, while the protocol is fully benchmarked and compared on five different IBM quantum processors. First, the uncertainties of the hardware are characterized, from which the main quality parameters that describe the token can be extracted. Following that, the fraction of qubits which the bank prepares and measures successfully is benchmarked. These fractions are then compared with the values obtained from an attacker who attempts to read the bank token and prepare a forged key. From which we experimentally demonstrate an acceptance probability of 0.057 for a forged token, in contrast to 0.999 for the bank's own tokens. These values can be further optimized by increasing the number of tokens in the device. Finally, we show that minor improvements in the hardware quality lead to significant increases in the protocol security, denoting a great potential of the protocol to scale with the ongoing quantum hardware evolution. We provide an open source tool with graphical user interface to benchmark the protocol with custom ensemble based qubits. This work demonstrates the overall security of the protocol within a hardware-agnostic framework, further confirming the interoperability of the protocol in arbitrary quantum systems and thus paving the way for future applications with different qubits. Comment: 14 pages, 10 figures, associated Github repository https://github.com/lucas-tsunaki/quantum-token |
| Databáze: | arXiv |
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