Mode-Resolved Phonon Scattering Spectroscopy - Theory and Experiments by Naveenath Krishanan

Mode-Resolved Phonon Scattering Spectroscopy - Theory and Experiments by Naveenath Krishanan

International Centre for Theoretical Sciences via YouTube Direct link

Summary

19 of 19

19 of 19

Summary

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Mode-Resolved Phonon Scattering Spectroscopy - Theory and Experiments by Naveenath Krishanan

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  1. 1 Mode-resolved phonon scattering spectroscopy: Theory and experiments
  2. 2 About me
  3. 3 Research focus
  4. 4 Heat conduction: A non-equilibrium transport process
  5. 5 Heat carriers in semiconductors
  6. 6 What are phonons?
  7. 7 From phonon's to thermal conductivity
  8. 8 First principles approach to calculate K
  9. 9 From thermal conductivity to phonon scattering
  10. 10 Diffusion causes ill-posedness
  11. 11 Solution: Non-diffusive heat conduction
  12. 12 Quasiballistic heat conduction: Real materials
  13. 13 Optically change "L": Transient grating
  14. 14 Surface scattering of phonon's in thin films
  15. 15 Phonon-averaged information in literature
  16. 16 Grating period-dependent thermal conductivity
  17. 17 First spectral measurement of phonon-surface scattering
  18. 18 Sensitivity to atomic-scale roughness
  19. 19 Summary

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