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Acquisition of a Low-Energy Electron Microscope

$358,400FY2000MPSNSF

Carnegie Mellon University, Pittsburgh PA

Investigators

Abstract

0079416 Hanon Low-Energy Electron Microscopy (LEEM) is used to generate real-time images of surfaces with a lateral resolution of better than 10 nanometer. Surfaces can be imaged at arbitrarily high temperatures, and during growth. Contrast in LEEM arises because of differences in electron reflectivity at the surface, which reflect variations in the structural, chemical and magnetic properties of the surface. This award will help establish a LEEM facility at Carnegie Mellon University for use by an interdisciplinary group of researchers spanning four University departments. Proposed research projects include investigations of phase transitions at surfaces, two-dimensional coarsening and growth, step and phase boundary fluctuations, GaN growth, wetting of organic films, surface magnetism, growth at chiral surfaces, and texture development in thin film growth. Low-Energy Electron Microscopy (LEEM) is used to generate real-time images of surfaces with a lateral resolution of better than ten nanomters, during growth, and at arbitrarily high temperatures. These unique features allow growth at surfaces to be studied in unprecedented detail. A LEEM facility will be established at Carnegie Mellon University for use by an interdisciplinary group of researchers. LEEM will be applied to a wide range of growth problems, from fundamental investigations of the chemistry and physics of surfaces, to process optimization in the development of new magnetic media.

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