Manuel Abuín scite author profile

Manuel Abuín

3Publications

0Citation Statements Received

14Citation Statements Given

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Universidad Politécnica de Madrid

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Electric current induced rupture in a permalloy strip

Guedas

Novillo

Abuín

et al. 2023

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In this work, we test the thermal rupture of a permalloy strip when an electric current is flowing through the strip. For a strip with the top surface exposed to air or covered with a thin insulating layer, we find that the strip gets destroyed at a DC density of only ∼0.6 × 1012 A/m2 and a temperature smaller than 400 K, while it can withstand ∼1.5 × 1012 A/m2 and ∼1200 K if the current is delivered in a sub-μs pulse. If the permalloy strip is covered with a heat dissipation window of Ta2O3/Pt or Ta2O3/Au, so the permalloy can also conduct heat through the top surface, the strip can withstand ∼3.5 × 1012 A/m2 and ∼2000 K. Interestingly, the strips always break in a section not covered by the dissipation window, even if that is not the hottest part of the strip. Therefore, the layers forming the dissipation window help with not only extracting the heat but also delaying the structural damage.

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CdO plasmonics on GaAs: using localized and surface plasmon polaritons for mid-IR near-field amplification

Castellano

Yeste

Ibañez-Romero

et al. 2023

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With this work we seek to cover a key space in the study of new materials for IR plasmonics: their integration on functional substrates. We show that Cd(Zn)O, a promising semiconductor oxide characterized by its low losses, can be grown in a polycrystalline form on a GaAs substrate. Despite this polycrystallinity, its plasmonic response can be described based on the physics of a homogeneous thin layer. With this study, we validate Cd(Zn)O for future integrated plasmonic systems on GaAsbased photonic devices.

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Mid-Ir Surface Plasmon Polaritons in Cdzno Thin Films on Gaas

Castellano¹,

Yeste

Abuín

et al. 2022

SSRN Journal

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Manuel Abuín

Electric current induced rupture in a permalloy strip

CdO plasmonics on GaAs: using localized and surface plasmon polaritons for mid-IR near-field amplification

Mid-Ir Surface Plasmon Polaritons in Cdzno Thin Films on Gaas

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