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Electromechanical Phenomena in Superconducting and Normal Nanostructures

Abstract
This thesis summarizes a series of theoretical studies on the electromechanical properties of nanostructures made of superconducting and/or metallic elements. The first part of the work is devoted to the analysis of the interactions between the electronic and mechanical degrees of freedom in suspended nanowires. In particular, a metallic carbon nanotube fixed between two superconducting leads and acting as a superconducting weak link is considered. This system is denoted as a nanoelectromechanical Josephson junction. If biased by a dc voltage, such a nanodevice possesses the ability to self-cool through the transfer of energy from the flexural vibrations of the suspended nanowire to voltage-driven Andreev states and then to quasiparticle electronic states in the superconducting leads. The electromechanical coupling required to accomplish the energy transfer process can be attained by applying an external magnetic field. It gives rise to a Lorentz force that couples displacements of the carbon nanotube to the electrical current that is carried by Andreev states. Further investigations of the nanoelectromechanical Josephson junction extend the analysis of the first study to a case in which the system is subjected to a nonuniform magnetic field. In this case, inhomogeneity of the field causes the conducting nanoresonator to execute a whirling movement. The analysis of the time evolution of the amplitude and relative phase of the nanowire motion shows that the coupled amplitude-phase dynamics presents different regimes depending on the degree of inhomogeneity of the magnetic field: time independent, periodic, and chaotic. The second part of the thesis describes the dynamics of a spatially symmetric shuttle-system subjected to an ac gate voltage. In this system, parametric excitation gives rise to mechanical vibrations at the resonant frequency, i.e., when the frequency of the ac signal is close to the eigenfrequency of the mechanical subsystem. The parametrically excited mechanical oscillations result in a dc shuttle current in a certain direction due to spontaneous symmetry breaking, where the direction of the current is determined by the phase shift between the ac voltage and the induced mechanical oscillations.
Parts of work
I. Cooling of a suspended nanowire by an ac Josephson current flow. Physical Review Letters, 104 ( 22 ) p. 226802.::doi::10.1103/PhysRevLett.104.226802
 
II. Voltage-driven superconducting weak link as a refrigerator for cooling of nanomechanical vibrations. Low Temperature Physics, 36 (10)p.902.::doi::10.1063/1.3515521
 
III. Dynamics of a suspended nanowire driven by an ac Josephson current in an inhomogeneous magnetic field. Physical Review E, 86 ( 4 ) p.046208.::doi::10.1103/PhysRevE.86.046208
 
IV. Parametric excitation of a dc shuttle current via spontaneous symmetry breaking. Unpublished manuscript
 
Degree
Doctor of Philosophy
University
Göteborgs universitet. Naturvetenskapliga fakulteten
Institution
Department of Physics ; Institutionen för fysik
Disputation
Torsdagen den 30:e maj 2013, klockan13.00 i GD-salen, Chalmers tekniska högskola, (campus Johanneberg), Origovägen 1, Göteborg
Date of defence
2013-05-30
E-mail
miltoneduardo@gmail.com
URI
http://hdl.handle.net/2077/32677
Collections
  • Doctoral Theses / Doktorsavhandlingar Institutionen för fysik
  • Doctoral Theses from University of Gothenburg / Doktorsavhandlingar från Göteborgs universitet
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Thesis (2.179Mb)
Abstract (90.65Kb)
Date
2013-05-08
Author
Pena Aza, Milton Eduardo
Keywords
Nanoelectromechanical systems, nanoelectromechanical Josephson junctions, metallic carbon nanotubes, ground-state cooling, chaos
Publication type
Doctoral thesis
ISBN
978-91-628-8699-8
Language
eng
Metadata
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