Practical quantum tokens: challenges and perspectives
Abstract
The concept of quantum tokens dates back alongside quantum cryptography to Stephen Wiesner's seminal work in 1983[1]. Already this initial work proposes society-relevant applications such as secure quantum banknotes, which can be exchanged between a bank and a customer. This quantum currency is based on various physical states that can be easily verified but is protected from being copied by the fundamental quantum laws. Four decades later, these ideas have flourished in the field of quantum information, and the concept of quantum banknotes has not only adopted many varying names, such as quantum money, quantum coins, quantum-digital payments, and quantum tokens, but also reached its first experimental demonstrations. In this perspective article, we discuss the current state-of-the-art of quantum tokens in the field of quantum information, as well as their future perspectives. We present a number of physical realizations of quantum tokens with integrated quantum memories and their applicability scenarios in detail. Finally, we discuss how quantum tokens fit into the information security ecosystem and consider their relationship to post-quantum cryptography.
Keywords
Cite
@article{arxiv.2602.10621,
title = {Practical quantum tokens: challenges and perspectives},
author = {Nadezhda P. Kukharchyk and Holger Boche and Christian Deppe and Kirill G. Fedorov and Martin E. Garcia and Ilja Gerhardt and Rudolf Gross and Thomas Halfmann and Hans Huebl and David Hunger and Wolfgang Kilian and Roman Kolesov and Juliane Krämer and Alexander Kubanek and Kai Müller and Boris Naydenov and Janis Nötzel and Anna P. Ovvyan and Wolfram H. P. Pernice and Gregor Pieplow and Cyril Popov and Tim Schröder and Kilian Singer and Janik Wolters},
journal= {arXiv preprint arXiv:2602.10621},
year = {2026}
}
Comments
36 pages, 16 figures, 275 citations