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Autori principali: Remez, Benjamin, Ghaemi, Pouyan, Sau, Jay D., Hafezi, Mohammad
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2512.04176
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author Remez, Benjamin
Ghaemi, Pouyan
Sau, Jay D.
Hafezi, Mohammad
author_facet Remez, Benjamin
Ghaemi, Pouyan
Sau, Jay D.
Hafezi, Mohammad
contents Superconducting weak-link junctions host electron--hole hybridized excitations called Andreev bound states. These have attracted significant interest for the role they play in the device microelectronic operation and for quantum information applications. Andreev physics has so far been synonymous with the microwave range. However, the maturation of superconductor--semiconductor hybrid junctions opens the door to the characterization, and manipulation, of Andreev states by light. Here we introduce a model for light--Andreev interaction, with distinct features: Electrons transitioning into Andreev levels can sidestep Pauli exclusion, resulting in two optical absorption resonances separated by twice the bound state energy. One resonance populates the Andreev state and the other empties it; pumping both resets the junction and prevents saturation. Given their natural microwave coupling, we show how Andreev bound states can operate as optical--to--microwave transducers. We illustrate these effects with realistic device parameters. Our results highlight the possibilities in the new field of Andreev optoelectronics.
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id arxiv_https___arxiv_org_abs_2512_04176
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Andreev Optoelectronics
Remez, Benjamin
Ghaemi, Pouyan
Sau, Jay D.
Hafezi, Mohammad
Mesoscale and Nanoscale Physics
Superconducting weak-link junctions host electron--hole hybridized excitations called Andreev bound states. These have attracted significant interest for the role they play in the device microelectronic operation and for quantum information applications. Andreev physics has so far been synonymous with the microwave range. However, the maturation of superconductor--semiconductor hybrid junctions opens the door to the characterization, and manipulation, of Andreev states by light. Here we introduce a model for light--Andreev interaction, with distinct features: Electrons transitioning into Andreev levels can sidestep Pauli exclusion, resulting in two optical absorption resonances separated by twice the bound state energy. One resonance populates the Andreev state and the other empties it; pumping both resets the junction and prevents saturation. Given their natural microwave coupling, we show how Andreev bound states can operate as optical--to--microwave transducers. We illustrate these effects with realistic device parameters. Our results highlight the possibilities in the new field of Andreev optoelectronics.
title Andreev Optoelectronics
topic Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2512.04176