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Approach: [1] Modified Valence Force Field to model phonons in strained Si nanowires .

Strain Engineering of lattice thermal properties in Silicon nanowires : Abhijeet Paul & Gerhard Klimeck. Results:. Uniaxial strain effectively tunes κ l. Objective: Engineering material thermal properties using strain to improve system level performance .

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Approach: [1] Modified Valence Force Field to model phonons in strained Si nanowires .

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  1. Strain Engineering of lattice thermal properties in Silicon nanowires: Abhijeet Paul & Gerhard Klimeck Results: Uniaxial strain effectively tunes κl. Objective: Engineering material thermal properties using strain to improve system level performance. Hydro-static strain tunes Cv. Approach: [1] Modified Valence Force Field to model phonons in strained Si nanowires. [2] Study the effect of strain on specifc heat (Cv) and thermal conductance (kl). Impact: Published in APL, 99, 083115 (2011); doi:10.1063/1.3630228

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