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Autori principali: Steakley, Samuel B., Zanoni, Elia, Scandolo, Carlo Maria
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2510.03622
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author Steakley, Samuel B.
Zanoni, Elia
Scandolo, Carlo Maria
author_facet Steakley, Samuel B.
Zanoni, Elia
Scandolo, Carlo Maria
contents Quantum resources exist in a hierarchy of multiple levels. At order zero, quantum states are transformed by linear maps (channels, or gates) in order to perform computations or simulate other states. At order one, gates and channels are transformed by linear maps (superchannels) in order to simulate other gates. To develop a full hierarchy of quantum resources, beyond those first two orders, and to account for the fact that quantum protocols can interconvert resources of different orders, we need a theoretical framework that addresses all orders in a uniform manner. We introduce a framework based on a system of types, which label the different kinds of objects that are present at different orders. We equip the framework with a parallel product operation that modifies and generalizes the tensor product so as to be operationally meaningful for maps of distinct and arbitrary orders. Finally, we introduce a family of convex cones that generalize the notion of complete positivity to all orders, with the aim of characterizing the objects that are physically admissible, facilitating an operational treatment of quantum objects at any order.
format Preprint
id arxiv_https___arxiv_org_abs_2510_03622
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Towards the simulation of higher-order quantum resources: a general type-theoretic approach
Steakley, Samuel B.
Zanoni, Elia
Scandolo, Carlo Maria
Quantum Physics
Quantum resources exist in a hierarchy of multiple levels. At order zero, quantum states are transformed by linear maps (channels, or gates) in order to perform computations or simulate other states. At order one, gates and channels are transformed by linear maps (superchannels) in order to simulate other gates. To develop a full hierarchy of quantum resources, beyond those first two orders, and to account for the fact that quantum protocols can interconvert resources of different orders, we need a theoretical framework that addresses all orders in a uniform manner. We introduce a framework based on a system of types, which label the different kinds of objects that are present at different orders. We equip the framework with a parallel product operation that modifies and generalizes the tensor product so as to be operationally meaningful for maps of distinct and arbitrary orders. Finally, we introduce a family of convex cones that generalize the notion of complete positivity to all orders, with the aim of characterizing the objects that are physically admissible, facilitating an operational treatment of quantum objects at any order.
title Towards the simulation of higher-order quantum resources: a general type-theoretic approach
topic Quantum Physics
url https://arxiv.org/abs/2510.03622