Related papers: The quantum condition space

The quantum condition space

URL: http://arxiv.org/abs/2107.05713v4
Date: Wed, 17 Nov 2021 16:28:19 GMT
Title: The quantum condition space
Authors: Zixuan Hu and Sabre Kais
Abstract summary: We introduce the concept of the condition space, which is found to be the dual space of the classical outcome space of bit strings. The quantum condition space permits the existence of entangled conditions that have no classical equivalent. The relation between the condition space and quantum circuits provides insights into how quantum states are collectively modified by quantum gates.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: In this work we first propose to exploit the fundamental properties of quantum physics to evaluate the probability of events with projection measurements. Next, to study what events can be specified by quantum methods, we introduce the concept of the condition space, which is found to be the dual space of the classical outcome space of bit strings. Just like the classical outcome space generates the quantum state space, the condition space generates the quantum condition space that is the central idea of this work. The quantum condition space permits the existence of entangled conditions that have no classical equivalent. In addition, the quantum condition space is related to the quantum state space by a Fourier transform guaranteed by the Pontryagin duality, and therefore an entropic uncertainty principle can be defined. The quantum condition space offers a novel perspective of understanding quantum states with the duality picture. In addition, the quantum conditions have physical meanings and realizations of their own and thus may be studied for purposes beyond the original motivation of characterizing events for probability evaluation. Finally, the relation between the condition space and quantum circuits provides insights into how quantum states are collectively modified by quantum gates, which may lead to deeper understanding of the complexity of quantum circuits.

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