| 11. | Consequently, the noise induced diffusion coefficient is
|
| 12. | The diffusion coefficient of zinc is higher than the diffusion coefficient of copper in this case.
|
| 13. | The diffusion coefficient of zinc is higher than the diffusion coefficient of copper in this case.
|
| 14. | Therefore, the step size is c?E ? D / B, and the diffusion coefficient is
|
| 15. | Where D is the diffusion coefficient.
|
| 16. | In this case, the elementary mean free path theory of diffusion gives for the diffusion coefficient
|
| 17. | By fitting this recovery curve it is possible to calculate the diffusion coefficient of the bilayer.
|
| 18. | Only the diffusion coefficients for the binary and ternary case can be determined with reasonable effort.
|
| 19. | In general, the diffusion coefficients of the two materials in each other are not the same.
|
| 20. | This exponential decay is related to the motion of the particles, specifically to the diffusion coefficient.
|
