Title page for ETD etd-04152011-115313


Type of Document Dissertation
Author Lillianfeld, Robert Brian
Author's Email Address rblilli@vt.edu
URN etd-04152011-115313
Title Experimental Observation of Geometric Phases in Narrow-Gap Semiconductor Heterostructures
Degree PhD
Department Physics
Advisory Committee
Advisor Name Title
Heremans, Jean J. Committee Chair
Asryan, Levon V. Committee Member
Heflin, James R. Committee Member
Kulkarni, Rahul V. Committee Member
Keywords
  • quantum interference
  • mesoscopic physics
  • Aharonov-Bohm effect
  • dephasing
Date of Defense 2011-04-01
Availability unrestricted
Abstract
We have studied the electron quantum phase by fabricating low dimensional (d ≤ 2) mesoscopic interferometers in high-quality narrow-gap semiconductor (NGS) heterostructures. The low effective-mass electrons in NGS heterostructures enable observation of delicate quantum phases; and the strong spin-orbit interaction (SOI) in the systems gives us means by which we can manipulate the quantum-mechanical spin of these electrons through the orbital properties of the electrons. This enables the observation of spin-dependent phenomena otherwise inaccessible in non-magnetic systems. We have performed low temperature (0.4 K ≤ T ≤ 8 K), low noise (∆V ~ 1μV ) transport measurements, and observed evidence of Aharonov-Bohm (AB) and Al’tshuler-Aronov-Spivak (AAS) quantum oscillations in meso- scopic devices that we fabricated on these NGSs. Our measurements are unique in that we observe both AB and AAS in comparable magnitude in ballistic networks with strong SOI. We show that, with appropriate considerations, diffusive formalisms can be used to describe ballistic transport through rings, even in the presence of SOI. This work also contains an introduction to the physics of geometric phases in mesoscopic systems, and the experimental and analytic processes through which these phases are probed. A discussion of the results of our measurements presents the case that quantum interferometric measurements of geometric phases can be understood quite thoroughly, and that these measurements may have deeper utility in discovery than has yet been recognized.
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