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Yibin Xu National Institute for Materials Science, Japan Thermal Conductivity of Amorphous Si and Ge Thin Films.

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Presentation on theme: "Yibin Xu National Institute for Materials Science, Japan Thermal Conductivity of Amorphous Si and Ge Thin Films."— Presentation transcript:

1 Yibin Xu National Institute for Materials Science, Japan Thermal Conductivity of Amorphous Si and Ge Thin Films

2 The transport forms of phonons has a great impact on the design of nanostructured thermoelectric materials with reduced thermal conductivity, as well as heat dissipation in electronic and photonic devices. Thermoelectric devicesThermal management Thermal management issue for thin film

3 L z, Cross-Plane x, In-Plane Diffuse Phonon Boundary Scattering Phonon-Phonon Scattering Ballistic Phonon Phonon transportation in thin film r Phonon-Defect Scattering

4 bulk thin film Temperature, T Thermal conductivity, Thickness, d Features of thermal conductivity of thin film Thermal conductivity, How is amorphous thin film? easily synthesized extreme low thermal conductivity little knowledge of phonon distribution, transportation, etc.

5 [1] Einstein model [1] : heat conduction in amorphous solids is described by a random walk of thermal energy between neighboring atoms vibrating with random phases. [2] Minimum thermal conductivity model [2] : the minimum thermal conductivity is reached when the distance between collisions of elastic waves equals the wavelength of Debye waves. Fig. 1 Calculated minimum conductivity at 300 K versus the measured values for amorphous solids [3]. [1] A. Einstein, Ann. Phys. (Leipzig) 35, 679 (1911). [2] G. A. Slack, in Solid State Physics: Advances in Research and Applications, edited by H. Ehrenreich et al. (Academic, New York, 1979), Vol. 34, p. 1. [3] D. G. Cahill, S. K. Watson, and R.O. Pohl, Phys. Rev. B 46, 6131 (1992). Classic models describing heat conduction in amorphous solids Phonon mean free paths in amorphous solids are several nm.

6 Existence of phonons with long mean free path predicted by MD simulation Effective mean free paths of the vibrational modes of an a-Si in equilibrium MD simulations. Y. P. He, D. Donadio, and G. Galli, Appl. Phys. Lett. 98, 144101 (2011).

7 Purpose of research Investigate the dependence of thermal conductivity of amorphous Si and Ge films on thickness and deposition conditions, and explore the nature of phonon propagating in amorphous solids.

8 Magnetron sputtering Deposition temperature 25 ℃ 300 ℃ 500 ℃ 600 ℃ Ge(Si) substrate (single crystal, 0.5 mm) Si(Ge) thin film (15,100,250 nm) Au sensing film (150 nm) Deposition conditions

9 Ge 300  C Ge 25  C Si 600  C

10  Ref TT 0 R. Kato, Y. Xu, et. al., Jpn. J. Appl. Phys, 50, 106602 (2011) Cross-plane thermal conductivity measurement (FDTR method)

11 Thermal resistance of amorphous Si(Ge) films as a function of thickness and deposition temperature Si Ge

12 Thermal conductivity of amorphous Si(Ge) film as a function of thickness and deposition temperature Si Ge

13 FFT patterns of different area sizes in Ge films 10×10 nm 3×3 nm 2×2 nm 300 ºC 25 ºC

14 Conclusion Thermal conductivity of amorphous Si and Ge films shows thickness dependence. This result proves that long MFP (>100 nm) phonons exist in amorphous Si and Ge. Thermal conductivity of amorphous Si and Ge films shows dependent on deposition temperature. The nano-scaled structural order is supposed to be the responsible for it.

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