Adam Sciambi, Matthew Pelliccione, Seth R. Bank, Arthur C. Gossard, David Goldhaber-Gordon
Published 2010-08-03Version 1
We propose a novel probe technique capable of performing local low-temperature spectroscopy on a 2D electron system (2DES) in a semiconductor heterostructure. Motivated by predicted spatially-structured electron phases, the probe uses a charged metal tip to induce electrons to tunnel locally, directly below the tip, from a "probe" 2DES to a "subject" 2DES of interest. We test this concept with large-area (non-scanning) tunneling measurements, and predict a high spatial resolution and spectroscopic capability, with minimal influence on the physics in the subject 2DES.
Magnetotransport in 2D electron systems with a Rashba spin-orbit interaction
Tunneling images of a 2D electron system in a quantizing magnetic field
Reflection of Electrons during Tunneling and an Intersubband Polaron in the 2D Electron System of a Delta-Layer in GaAs
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