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Cryogenic Microwave Imaging of Metal-Insulator Transition in Doped Silicon

Published 7 Oct 2010 in cond-mat.mes-hall and cond-mat.mtrl-sci | (1010.1509v2)

Abstract: We report the instrumentation and experimental results of a cryogenic scanning microwave impedance microscope. The microwave probe and the scanning stage are located inside the variable temperature insert of a helium cryostat. Microwave signals in the distance modulation mode are used for monitoring the tip-sample distance and adjusting the phase of the two output channels. The ability to spatially resolve the metal-insulator transition in a doped silicon sample is demonstrated. The data agree with a semi-quantitative finite-element simulation. Effects of the thermal energy and electric fields on local charge carriers can be seen in the images taken at different temperatures and DC biases.

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