Eoghan Ryan scite author profile

We examine how the ability of a system to redundantly proliferate relevant information about its pointer states is aﬀ ected when it is coupled to multiple baths. To this end, we consider a system in contact with two baths: one – termed the accessible environment – which, on its own, induces a pure dephasing mechanism on the state of the system and satisﬁes the conditions for classical objectivity to be established. The second environment, which we dub as inaccessible, aﬀects the system in two physically relevant ways. Firstly, we consider an interaction that commutes with the Hamiltonian describing the interaction between system and accessible bath. It thus also gives rise to dephasing of the system, albeit on diﬀerent time scales. Secondly, we consider a thermalising interaction, which does not commute with the system-accessible environment Hamiltonian. While the former still allows the system to redundantly encode its state into the accessible environment, the latter degrades the correlations, eventually destroying them in the long-time limit, and thus leads to a loss of the conditions necessary for classical objectivity to be established. This sheds light on the role that commutativity between the various system-bath interaction terms plays when establishing the conditions for classical objectivity to be supported.

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Composite Discordant States and Quantum Darwinism

Ryan

Paternostro

2022

Entropy

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The framework of Quantum Darwinism strives at characterizing the quantum-to-classical transition by introducing the concept of redundancy of information—as measured by Mutual Information—that a set of observers would acquire on the state of a physical system of interest. Further development on this concept, in the form of Strong Quantum Darwinism and Spectrum Broadcast Structures, has recently led to a more fine-grained identification of the nature of such information, which should not involve any quantum correlations between observing and observed systems, while the assessment of information proliferation from individual systems has attracted most of the attention so far, the way such mechanism takes place in more complex states is open to exploration. To this end, we shall consider a two-qubit state, sharing initial quantum correlations in the form of Quantum Discord, and different dephasing-like interactions between them and an observing environment. We will focus on the amount of information regarding the subsystem not involved in the interaction that is proliferated to the environment. We shall refer to this as mediated redundancy. We will show that, in some cases, the channel capacity of the subsystems, given these interactions, can exceed that of the fragments.

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The deep end: a memoir of growing up

Ryan

2018

Irish Studies Review

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Eoghan Ryan

Quantum Darwinism in a structured spin environment

Commutativity and the emergence of classical objectivity

Composite Discordant States and Quantum Darwinism

The deep end: a memoir of growing up

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