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Engineering the thermal conductivity along an individual silicon nanowire by selective helium ion irradiation

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arxiv 1705.06845 v1 pith:XAR7TSX4 submitted 2017-05-19 cond-mat.mtrl-sci

Engineering the thermal conductivity along an individual silicon nanowire by selective helium ion irradiation

classification cond-mat.mtrl-sci
keywords thermalconductivitydosealongengineeringheliumirradiationnanowire
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The ability to engineer the thermal conductivity of materials allows us to control the flow of heat and derive novel functionalities such as thermal rectification, thermal switching, and thermal cloaking. While this could be achieved by making use of composites and metamaterials at bulk scales, engineering the thermal conductivity at micro- and nano-scale dimensions is considerably more challenging. In this work we show that the local thermal conductivity along a single Si nanowire can be tuned to a desired value (between crystalline and amorphous limits) with high spatial resolution through selective helium ion irradiation with a well-controlled dose. The underlying mechanism is understood through molecular dynamics simulations and quantitative phonon-defect scattering rate analysis, where the behavior of thermal conductivity with dose is attributed to the accumulation and agglomeration of scattering centers at lower doses. Beyond a threshold dose, a crystalline-amorphous transition was observed.

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