| 11. | For an ideal surface, there should be no elastic scattering intensity between the observed diffraction peaks.
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| 12. | In an elastic scattering event, the kinematics requires that the target atom is recoiled with significant energy.
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| 13. | Elastic scattering is when the collisions between target and incident particles have total conservation of kinetic energy.
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| 14. | Impurity scattering and surface scattering are, with a fair approximation, two good examples of elastic scattering processes.
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| 15. | Also the low elastic scattering cross section for light ions makes damage levels above 10 dpa impractical.
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| 16. | Some incident electrons undergo a single, elastic scattering event at the crystal surface, a process termed kinematic scattering.
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| 17. | The assumption of elastic scattering makes it more difficult for phonons to transmit across the interface, resulting in lower probabilities.
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| 18. | Spectral absorption, the selective absorption of certain colors, determines the color of most objects with some modification by elastic scattering.
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| 19. | The intensity never shrinks to zero even far from diffraction conditions, however, due to incoherent elastic scattering from surface defects.
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| 20. | In this paper, we will primarily focus on the multislice method for simulation of diffraction patterns, including multiple elastic scattering effects.
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