| 1. | A common method to achieve this is the self-consistent multiple scattering approach.
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| 2. | Multiple scattering scheme where the ion beam is directed in x direction.
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| 3. | Where the dominant part of the multiple scattering polar-angular distribution is
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| 4. | Similarly, multiple scattering can sometimes have somewhat random outcomes, particularly with coherent radiation.
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| 5. | Optical elements designed to produce multiple scattering are thus known as " diffusers ".
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| 6. | The second one uses the Green formalism ( multiple scattering ) on a muffin-tin potential.
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| 7. | But this technique is limited by high background noise and low signal due to multiple scattering.
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| 8. | This provides multiple scattering opportunities and causes depolarization.
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| 9. | Propagation of Multiple scattering angular distribution through matter.
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| 10. | The same method can also be used to correct dynamic light scattering data for multiple scattering contributions.
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