582 research outputs found

    The role of spin-orbit interaction in low thermal conductivity of Mg3_3Bi2_2

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    Three-dimensional layered Mg3_3Bi2_2 has emerged as thermoelectric material due to its high cooling performance at ambient temperature, which benefits from its low lattice thermal conductivity and semimetal character. However, the semimetal character of Mg3_3Bi2_2 is sensitive to spin-orbit coupling (SOC). Thus, the underlying origin of low lattice thermal conductivity needs to be clarified in the presence of the SOC. In this work, the first-principles calculations within the two-channel model are employed to investigate the effects of the SOC on the phonon-phonon scattering on the phonon transport of Mg3_3Bi2_2. Our results show that the SOC strongly reduces the lattice thermal conductivity (up to 35\sim 35 %). This reduction originates from the influence of the SOC on the transverse acoustic modes involving interlayer shearing, leading to weak interlayer bonding and enhancement anharmonicity around 50 cm1^{-1}. Our results clarify the mechanism of low thermal conductivity in Mg3_3Bi2_2 and support the design of Mg3_3Bi2_2-based materials for thermoelectric applications.Comment: 4 pages, 3 figures, 1 tabl

    Multiple Antenna Systems for Mobile Terminals

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