English

Digital signatures with classical shadows on near-term quantum computers

Quantum Physics 2026-02-05 v1 Cryptography and Security

Abstract

Quantum mechanics provides cryptographic primitives whose security is grounded in hardness assumptions independent of those underlying classical cryptography. However, existing proposals require low-noise quantum communication and long-lived quantum memory, capabilities which remain challenging to realize in practice. In this work, we introduce a quantum digital signature scheme that operates with only classical communication, using the classical shadows of states produced by random circuits as public keys. We provide theoretical and numerical evidence supporting the conjectured hardness of learning the private key (the circuit) from the public key (the shadow). A key technical ingredient enabling our scheme is an improved state-certification primitive that achieves higher noise tolerance and lower sample complexity than prior methods. We realize this certification by designing a high-rate error-detecting code tailored to our random-circuit ensemble and experimentally generating shadows for 32-qubit states using circuits with 80\geq 80 logical (582\geq 582 physical) two-qubit gates, attaining 0.90 ±\pm 0.01 fidelity. With increased number of measurement samples, our hardware-demonstrated primitives realize a proof-of-principle quantum digital signature, demonstrating the near-term feasibility of our scheme.

Keywords

Cite

@article{arxiv.2602.04859,
  title  = {Digital signatures with classical shadows on near-term quantum computers},
  author = {Pradeep Niroula and Minzhao Liu and Sivaprasad Omanakuttan and David Amaro and Shouvanik Chakrabarti and Soumik Ghosh and Zichang He and Yuwei Jin and Fatih Kaleoglu and Steven Kordonowy and Rohan Kumar and Michael A. Perlin and Akshay Seshadri and Matthew Steinberg and Joseph Sullivan and Jacob Watkins and Henry Yuen and Ruslan Shaydulin},
  journal= {arXiv preprint arXiv:2602.04859},
  year   = {2026}
}
R2 v1 2026-07-01T09:36:29.453Z