Generalized State Discrimination for Tunable Quantum Key Distribution: The phiQKD Protocol

Animesh Banik; Md. Shihab Khan; Rafid Masrur Khan; Syed Emad Uddin Shubha; Quazi Muhammad Rashed Nizam

arXiv:2511.06488·quant-ph·November 11, 2025

Generalized State Discrimination for Tunable Quantum Key Distribution: The phiQKD Protocol

Animesh Banik, Md. Shihab Khan, Rafid Masrur Khan, Syed Emad Uddin Shubha, Quazi Muhammad Rashed Nizam

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TL;DR

This paper presents phiQKD, a tunable quantum key distribution protocol that uses a flexible measurement scheme to adapt to noise and imperfections, improving practicality and performance.

Contribution

It introduces a novel, tunable measurement framework for QKD, enhancing adaptability and potential performance over traditional fixed-measurement protocols.

Findings

01

Modest asymptotic key rate improvement over B92

02

Enhanced adaptability to noise and channel imperfections

03

Flexible measurement tuning enables protocol optimization

Abstract

We introduce a tunable framework for generalized quantum state discrimination (GSD) and apply it to quantum key distribution (QKD) through a protocol we call phiQKD. Building upon the two-state B92 protocol, phiQKD replaces the traditional unambiguous state discrimination (IDP) measurement with a one-parameter family of hybrid POVMs characterized by a tilting angle $ϕ$ . This allows for continuous control over the trade-off among correct, incorrect, and inconclusive outcomes. While the asymptotic key rate improvement over B92 is modest, phiQKD offers a practical advantage by enabling adaptability to noise and channel imperfections via measurement tunability. By evaluating the protocol under asymptotic, finite-key, and composable security models, we show that, treating quantum measurement as a tunable design parameter, rather than a fixed operation, enables flexible protocol…

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Taxonomy

TopicsQuantum Information and Cryptography · Quantum Mechanics and Applications · Quantum Computing Algorithms and Architecture