Explanipedia

Distilled remote entanglement between superconducting qubits across optical channels Open

Nicolas Dirnegger, Moein Malekakhlagh, Vikesh Siddhu, Ashutosh Rao, Chi Xiong , et al. · 2025

A promising quantum computing architecture comprises modules of superconducting quantum processors linked via optical channels using quantum transducers. As quantum transducer hardware improves, a need has arisen to understand the quantita…

Nonreciprocal quantum information processing with superconducting diodes in circuit quantum electrodynamics Open

Nicolas Dirnegger, Prineha Narang, Arpit Arora · 2025

Introducing new components and functionalities into quantum devices is critical in advancing state-of-the-art hardware. Here, we propose superconducting diodes (SDs) as a coherent nonreciprocal element in circuit quantum electrodynamics (c…

Nonlinear superconducting ring resonator for sensitive measurement of time reversal symmetry broken order Open

Nicolas Dirnegger, Marie E. Wesson, Arpit Arora, Ioannis Petrides, Jonathan B. Curtis , et al. · 2025

Time-reversal symmetry breaking (TRSB) has been central to detecting exotic phases of matter, often linked to complex superconducting order parameters or unique magnetic phenomena. Here, we leverage circuit electrodynamics capabilities of …

Monte Carlo model of distilled remote entanglement between superconducting qubits across optical channels Open

Nicolas Dirnegger, Moein Malekakhlagh, Vikesh Siddhu, Ashutosh Rao, Chi Xiong , et al. · 2025

A promising quantum computing architecture comprises modules of superconducting quantum processors linked by optical channels via quantum transducers. To map transducer device performance to system-level channel performance, our model uses…

Efficient Multiparty Entanglement Distribution with DODAG-X Protocol Open

Roberto Negrin, Nicolas Dirnegger, William Munizzi, Jugal Talukdar, Prineha Narang · 2024

In this work we introduce the DODAG-X protocol for multipartite entanglement distribution in quantum networks. Leveraging the power of Destination Oriented Directed Acyclic Graphs (DODAGs), our protocol optimizes resource consumption and e…

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