Microwave Bragg-scattering zone-axis-pattern analysis
P. Fraundorf, Bernard J. Feldman, W. Garver, M. Freeman, D. Proctor
Physics & Astronomy/Center for NanoScience, U. Missouri-StL (63121)
Louis deBroglie's connection between momentum and spatial-frequency vectors is perhaps most viscerally-experienced via the real-time access that electron-diffraction provides to transverse slices of a nano-crystal's reciprocal-lattice. The classic introductory (and/or advanced) physics lab-experiment on microwave Bragg-scattering can with a bit of re-arrangement also give students access to ``zone-axis-pattern" slices through the 3D spatial-frequency (i.e. reciprocal) lattice of a ball-bearing crystal, which may likewise contain only a few unit-cells.
In this paper we show how data from the standard experimental set-up can be used to generate zone-axis-patterns oriented down the crystal rotation-axis. This may be used to give students direct experience with interpretation of lattice-fringe image power-spectra, and with nano-crystal electron-diffraction patterns, as well as with crystal shape-transforms that we use here to explain previously mis-identified peaks in the microwave data.
Sections of this paper include:
Introduction, Experimental procedures, Data and analysis, & Experiment extensions.
Related references:
P. Fraundorf, Bernard J. Feldman, W. Garver, M. Freeman, D. Proctor (2013) "Microwave Bragg-diffraction zone-axis-pattern analysis", arXiv:1307.7663 [physics.ed-ph] working draft pdf, supplement & its tinyurl.