English

Untelegraphable Encryption and its Applications

Quantum Physics 2025-01-28 v2 Cryptography and Security

Abstract

We initiate the study of untelegraphable encryption (UTE), founded on the no-telegraphing principle, which allows an encryptor to encrypt a message such that a binary string representation of the ciphertext cannot be decrypted by a user with the secret key, a task that is classically impossible. This is a natural relaxation of unclonable encryption (UE), inspired by the recent work of Nehoran and Zhandry (ITCS 2024), who showed a computational separation between the no-cloning and no-telegraphing principles. In this work, we define and construct UTE information-theoretically in the plain model. Building off this, we give several applications of UTE and study the interplay of UTE with UE and well-studied tasks in quantum state learning, yielding the following contributions: - A construction of collusion-resistant UTE from plain secret-key encryption, which we then show denies the existence of hyper-efficient shadow tomography (HEST). By building a relaxation of collusion-resistant UTE, we show the impossibility of HEST assuming only pseudorandom state generators (which may not imply one-way functions). This almost unconditionally answers an open inquiry of Aaronson (STOC 2018). - A construction of UTE from a one-shot message authentication code in the classical oracle model, such that there is an explicit attack that breaks UE security for an unbounded polynomial number of decryptors. - A construction of everlasting secure collusion-resistant UTE, where the decryptor adversary can run in unbounded time, in the quantum random oracle model (QROM), and formal evidence that a construction in the plain model is a challenging task. We leverage this construction to show that HEST with unbounded post-processing time is impossible in the QROM. - Constructions of secret sharing resilient to joint and unbounded classical leakage and untelegraphable functional encryption.

Keywords

Cite

@article{arxiv.2410.24189,
  title  = {Untelegraphable Encryption and its Applications},
  author = {Jeffrey Champion and Fuyuki Kitagawa and Ryo Nishimaki and Takashi Yamakawa},
  journal= {arXiv preprint arXiv:2410.24189},
  year   = {2025}
}

Comments

56 pages

R2 v1 2026-06-28T19:43:17.066Z