Abstract
By performing first-principles calculations, we study theoretically the angular distributions of the intensities of the scattered waves which are reflected from and transmitted through disordered thin slabs with internal reflections in the case when and , where is the thickness of the slab, is the mean free path, and is the wavelength inside the slab. We find that the enhanced scattering peak on the transmission side has almost the same structure as the coherent backscattering (CBS) peak on the reflection side when the phase factor , where , is the relative refractive index of the slab, and is the incident angle. When , the enhanced scattering peak on the transmission side shows an oscillatory behavior. The amplitudes of the oscillations increase with and . It is also found that the widths of the enhanced scattering peaks increase with . This is opposite to the well-known trend in thick slabs, where the width of the CBS peak decreases with . When , we find satellite peaks, which are much weaker in intensity than the main enhanced scattering peaks.
3 More- Received 14 April 2004
DOI:https://doi.org/10.1103/PhysRevB.70.125110
©2004 American Physical Society