Add to ORKGQuantum channel discrimination is a fundamental problem in quantum information science. In this study, we consider general quantum channel discrimination problems, and derive the lower bounds of the error probability. Our lower bounds are based on the triangle inequalities of the Bures angle and the trace distance. As a consequence of the lower bound based on the Bures angle, we prove the optimality of Grover's search if the number of marked elements is fixed to some integer $\ell$. This result generalizes Zalka's result for $\ell=1$. We also present several numerical results in which our lower bounds based on the trace distance outperform recently obtained lower bounds.Comment: 17 pages, 6 figure
We present a number of results related to quantum algorithms with small error probability and quantu...
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Two types of errors can occur when discriminating pairs of quantum states. Asymmetric state discrimi...
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Discrimination of unitary operations is fundamental in quantum computation and information. A lot of...
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The ability to precisely discriminate multiple quantum channels is fundamental to achieving quantum ...
Quantum hypothesis testing is an important tool for quantum information processing. Two main strateg...
We present a number of results related to quantum algorithms with small error probability and quantu...
We introduce a new quantum decoder based on a variant of the pretty good measurement, but defined vi...
This paper studies the difficulty of discriminating between an arbitrary quantum channel and a “repl...
Quantum hypothesis testing is a central task in the entire field of quantum information theory. Unde...
Amplitude damping (AD) channels are good models for many physical scenarios, and so the development ...
What is the ultimate performance for discriminating two arbitrary quantum channels acting on a finit...
This paper introduces coherent quantum channel discrimination as a coherent version of conventional ...
We prove a lower bound on the q-maximal fidelities between two quantum channels ε 0 and ε 1 and an u...
In the problem of quantum channel discrimination, one distinguishes between a given number of quantu...
Two types of errors can occur when discriminating pairs of quantum states. Asymmetric state discrimi...
The class of quantum states known as Werner states have several interesting properties, which often ...
Discrimination of unitary operations is fundamental in quantum computation and information. A lot of...
Summary: We study the difficulty of discriminating between an arbitrary quantum channel and a "...
The ability to precisely discriminate multiple quantum channels is fundamental to achieving quantum ...
Quantum hypothesis testing is an important tool for quantum information processing. Two main strateg...
We present a number of results related to quantum algorithms with small error probability and quantu...
We introduce a new quantum decoder based on a variant of the pretty good measurement, but defined vi...
This paper studies the difficulty of discriminating between an arbitrary quantum channel and a “repl...