Ultrafast Switching of Interfacial Thermal Conductance

Ahn, Youngjun; Zhang, Jiawei; Chu, Zhaodong; Walko, Donald A.; Hruszkewycz, Stephan O.; Fullerton, Eric E.; Evans, Paul G.; Wen, Haidan

doi:10.1021/acsnano.3c03628

ACS Nano

2023

DOI: 10.1021/acsnano.3c03628

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Ultrafast Switching of Interfacial Thermal Conductance

Youngjun Ahn,

Jiawei Zhang,

Zhaodong Chu

et al.

Abstract: Dynamical control of thermal transport at the nanoscale provides a time-domain strategy for optimizing thermal management in nanoelectronics, magnetic devices, and thermoelectric devices. However, the rate of change available for thermal switches and regulators is limited to millisecond time scales, calling for a faster modulation speed. Here, time-resolved X-ray diffraction measurements and thermal transport modeling reveal an ultrafast modulation of the interfacial thermal conductance of an FeRh/MgO heterost… Show more

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2024

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Cited by 3 publications

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Abnormal Magnetic Phase Transition in Mixed‐Phase (110)‐Oriented FeRh Films on Al₂O₃ Substrates via the Anomalous Nernst Effect

Choi,

Park,

Kim

et al. 2024

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Iron rhodium (FeRh) undergoes a first‐order anti‐ferromagnetic to ferromagnetic phase transition above its Curie temperature. By measuring the anomalous Nernst effect (ANE) in (110)‐oriented FeRh films on Al2O3 substrates, the ANE thermopower over a temperature range of 100–350 K is observed, with similar magnetic transport behaviors observed for in‐plane magnetization (IM) and out‐of‐plane magnetization (PM) configurations. The temperature‐dependent magnetization–magnetic field strength (M–H) curves revealed that the ANE voltage is proportional to the magnetization of the material, but additional features magnetic textures not shown in the M‐H curves remained intractable. In particular, a sign reversal occurred for the ANE thermopower signal near zero field in the mixed‐magnetic‐phase films at low temperatures, which is attributed to the diamagnetic properties of the Al2O3 substrate. Finite element method simulations associated with the Heisenberg spin model and Landau–Lifshitz–Gilbert equation strongly supported the abnormal heat transport behavior from the Al2O3 substrate during the experimentally observed magnetic phase transition for the IM and PM configurations. The results demonstrate that FeRh films on an Al2O3 substrate exhibit unusual behavior compared to other ferromagnetic materials, indicating their potential for use in novel applications associated with practical spintronics device design, neuromorphic computing, and magnetic memory.

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Abnormal Magnetic Phase Transition in Mixed‐Phase (110)‐Oriented FeRh Films on Al₂O₃ Substrates via the Anomalous Nernst Effect

Choi,

Park,

Kim

et al. 2024

Small

View full text Add to dashboard Cite

show abstract

Light-Induced Ultrafast Glide-Mirror Symmetry Breaking in Black Phosphorus

Bao,

Wang,

Zhong

et al. 2024

ACS Nano

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Symmetry breaking plays an important role in the fields of physics, ranging from particle physics to condensed matter physics. In solid-state materials, phase transitions are deeply linked to the underlying symmetry breakings, resulting in a rich variety of emergent phases. Such symmetry breakings are often induced by controlling the chemical composition and temperature or applying an electric field, strain, etc. In this work, we demonstrate ultrafast glide-mirror symmetry breaking in black phosphorus through Floquet engineering. Upon nearresonance pumping, a light-induced full gap opening is observed at the glide-mirror symmetry protected nodal ring, suggesting light-induced breaking of the glide-mirror symmetry. Moreover, the full gap is observed only in the presence of the light-field and disappears almost instantaneously (≪100 fs) when the lightfield is turned off, suggesting the ultrafast manipulation of the symmetry and its Floquet engineering origin. This work not only demonstrates light−matter interaction as an effective way to realize ultrafast symmetry breaking in solid-state materials but also moves forward toward the long-sought Floquet topological phases.

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Magnetic phase dependency of the thermal conductivity of FeRh from thermoreflectance experiments and numerical simulations

Castellano,

Alhada-Lahbabi,

Arregi

et al. 2024

Phys. Rev. Materials

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Ultrafast Switching of Interfacial Thermal Conductance

Cited by 3 publications

References 41 publications

Abnormal Magnetic Phase Transition in Mixed‐Phase (110)‐Oriented FeRh Films on Al₂O₃ Substrates via the Anomalous Nernst Effect

Abnormal Magnetic Phase Transition in Mixed‐Phase (110)‐Oriented FeRh Films on Al₂O₃ Substrates via the Anomalous Nernst Effect

Light-Induced Ultrafast Glide-Mirror Symmetry Breaking in Black Phosphorus

Magnetic phase dependency of the thermal conductivity of FeRh from thermoreflectance experiments and numerical simulations

Contact Info

Product

Resources

About

Ultrafast Switching of Interfacial Thermal Conductance

Cited by 3 publications

References 41 publications

Abnormal Magnetic Phase Transition in Mixed‐Phase (110)‐Oriented FeRh Films on Al2O3 Substrates via the Anomalous Nernst Effect

Abnormal Magnetic Phase Transition in Mixed‐Phase (110)‐Oriented FeRh Films on Al2O3 Substrates via the Anomalous Nernst Effect

Light-Induced Ultrafast Glide-Mirror Symmetry Breaking in Black Phosphorus

Magnetic phase dependency of the thermal conductivity of FeRh from thermoreflectance experiments and numerical simulations

Contact Info

Product

Resources

About

Abnormal Magnetic Phase Transition in Mixed‐Phase (110)‐Oriented FeRh Films on Al₂O₃ Substrates via the Anomalous Nernst Effect

Abnormal Magnetic Phase Transition in Mixed‐Phase (110)‐Oriented FeRh Films on Al₂O₃ Substrates via the Anomalous Nernst Effect