Computational Quantum Anamorphic Encryption and Quantum Anamorphic Secret-Sharing
- URL: http://arxiv.org/abs/2511.17924v1
- Date: Sat, 22 Nov 2025 05:39:54 GMT
- Title: Computational Quantum Anamorphic Encryption and Quantum Anamorphic Secret-Sharing
- Authors: Sayantan Ganguly, Shion Samadder Chaudhury,
- Abstract summary: The concept of anamorphic encryption, first formally introduced by Persiano et al., enables embedding covert messages within ciphertexts.<n>We present a quantum analogue of the classical anamorphic encryption definition based on public-key encryption.<n>We extend the work of akan et al. on computational quantum secret-sharing to computational quantum anamorphic secret-sharing.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: The concept of anamorphic encryption, first formally introduced by Persiano et al. in their influential 2022 paper titled ``Anamorphic Encryption: Private Communication Against a Dictator,'' enables embedding covert messages within ciphertexts. One of the key distinctions between a ciphertext embedding a covert message and an original ciphertext, compared to an anamorphic ciphertext, lies in the indistinguishability between the original ciphertext and the anamorphic ciphertext. This encryption procedure has been defined based on a public-key cryptosystem. Initially, we present a quantum analogue of the classical anamorphic encryption definition that is based on public-key encryption. Additionally, we introduce a definition of quantum anamorphic encryption that relies on symmetric key encryption. Furthermore, we provide a detailed generalized construction of quantum anamorphic symmetric key encryption within a general framework, which involves taking any two quantum density matrices of any different dimensions and constructing a single quantum density matrix, which is the quantum anamorphic ciphertext containing ciphertexts of both of them. Subsequently, we introduce a definition of computational anamorphic secret-sharing and extend the work of Çakan et al. on computational quantum secret-sharing to computational quantum anamorphic secret-sharing, specifically addressing scenarios with multiple messages, multiple keys, and a single share function. This proposed secret-sharing scheme demonstrates impeccable security measures against quantum adversaries.
Related papers
- Post-Quantum Cryptography: An Analysis of Code-Based and Lattice-Based Cryptosystems [55.49917140500002]
Quantum computers will be able to break modern cryptographic systems using Shor's Algorithm.<n>We first examine the McEliece cryptosystem, a code-based scheme believed to be secure against quantum attacks.<n>We then explore NTRU, a lattice-based system grounded in the difficulty of solving the Shortest Vector Problem.
arXiv Detail & Related papers (2025-05-06T03:42:38Z) - Quantum stream cipher and Quantum block cipher -The Era of 100 Gbit/sec real-time encryption- [0.0]
In the theory of cryptology, the Shannon impossibility theorem states that the upper bound of the security of a plaintext against a ciphertext-only attack is the entropy of the secret key.<n>Such challenges have been attempted with quantum stream cipher and quantum data locking as block cipher.<n>Both ciphers are designed by means of differentiating the receiving performance of Bob with key and Eve without key according to the principle of quantum communication theory.
arXiv Detail & Related papers (2025-04-24T04:28:17Z) - The Evolution of Cryptography through Number Theory [55.2480439325792]
cryptography began around 100 years ago, its roots trace back to ancient civilizations like Mesopotamia and Egypt.<n>This paper explores the link between early information hiding techniques and modern cryptographic algorithms like RSA.
arXiv Detail & Related papers (2024-11-11T16:27:57Z) - Relating Quantum Tamper-Evident Encryption to Other Cryptographic Notions [0.0]
A quantum tamper-evident encryption scheme is a non-interactive symmetric-key encryption scheme mapping classical messages to quantum ciphertexts.<n>This quantum cryptographic primitive was first introduced by Gottesman in 2003.<n>We further our understanding of tamper-evident encryption by formally relating it to other quantum cryptographic primitives in an information-theoretic setting.
arXiv Detail & Related papers (2024-11-05T02:20:29Z) - Revocable Encryption, Programs, and More: The Case of Multi-Copy Security [48.53070281993869]
We show the feasibility of revocable primitives, such as revocable encryption and revocable programs.<n>This suggests that the stronger notion of multi-copy security is within reach in unclonable cryptography.
arXiv Detail & Related papers (2024-10-17T02:37:40Z) - Exact Homomorphic Encryption [0.0]
This article proposes a framework dubbed Exact Homomorphic Encryption, EHE, enabling exact computations on encrypted data without the need for pre-decryption.
Two fundamental traits of quantum gates, invertibility and the noncommutativity, establish the success of EHE.
arXiv Detail & Related papers (2024-01-17T07:48:52Z) - Revocable Cryptography from Learning with Errors [61.470151825577034]
We build on the no-cloning principle of quantum mechanics and design cryptographic schemes with key-revocation capabilities.
We consider schemes where secret keys are represented as quantum states with the guarantee that, once the secret key is successfully revoked from a user, they no longer have the ability to perform the same functionality as before.
arXiv Detail & Related papers (2023-02-28T18:58:11Z) - A Variational Quantum Attack for AES-like Symmetric Cryptography [69.80357450216633]
We propose a variational quantum attack algorithm (VQAA) for classical AES-like symmetric cryptography.
In the VQAA, the known ciphertext is encoded as the ground state of a Hamiltonian that is constructed through a regular graph.
arXiv Detail & Related papers (2022-05-07T03:15:15Z) - A practical quantum encryption protocol with varying encryption
configurations [0.0]
We propose a quantum encryption protocol that utilizes a quantum algorithm to create blocks oftext ciphers based on quantum states.
The main feature of our quantum encryption protocol is that the encryption configuration of each block is determined by the previous blocks.
arXiv Detail & Related papers (2021-01-22T20:09:03Z) - A quantum encryption design featuring confusion, diffusion, and mode of
operation [0.0]
We propose a non-OTP quantum encryption scheme utilizing a quantum state creation process to encrypt messages.
As essentially a non-OTP quantum block cipher the method stands out against existing methods with the following features.
arXiv Detail & Related papers (2020-10-06T22:23:30Z) - Backflash Light as a Security Vulnerability in Quantum Key Distribution
Systems [77.34726150561087]
We review the security vulnerabilities of quantum key distribution (QKD) systems.
We mainly focus on a particular effect known as backflash light, which can be a source of eavesdropping attacks.
arXiv Detail & Related papers (2020-03-23T18:23:12Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.