Author:
Kushnir V. I.,Georgopoulos P.
Abstract
ABSTRACTA new technique of obtaining layer thickness and internal strains in multilayer structures and quantum wells from the rocking curve data is described and analytically proved. This method consists of Fourier transform of the experimental intensity profile multiplied by the wave vector deviation squared. It is shown that peaks of the Fourier transform correspond to distances between boundaries in the specimen. The (400) reflection curves of a quantum well in InP/InAs and a superlattice structure made up of latticematched GaAs/Ga0.49 In0.51P layers were measured with 8 KeV radiation at beamnline X-18A, National Synchrotron Light Source (NSLS) at Brookhaven National Laboratory. The results of above procedure were used to reduce a number of degrees of freedom in a computer simulation of reflecting curves. It is shown that it is possible to extract layer thicknesses with the accuracy of about 15 Å for thick layers to as low as 1 Å for superlattices. Interplanar distances can be obtained with an accuracy of 0.0001 Å.
Publisher
Springer Science and Business Media LLC
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