Nanodevices and nanostructures: quantum wires and quantum dots

Nanodevices and nanostru ctures: quantum wires an d quantum dots ECE 423 Final Project Wan-Ching Hung Dec 12,2006

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Nanodevices and nanostructures: quantum wires and quantum dots. ECE 423 Final Project Wan-Ching Hung Dec 12,2006. Quantum Dots and Quantum Lines. A quantum dot typically contains between 1 to 200 atoms in diameter and its length, width, and high are generally defined less than 100nm. - PowerPoint PPT Presentation

Transcript of Nanodevices and nanostructures: quantum wires and quantum dots

Page 1: Nanodevices and nanostructures: quantum wires and quantum dots

Nanodevices and nanostructures: quantum wires and quantum dotsECE 423 Final Project

Wan-Ching HungDec 12,2006

Page 2: Nanodevices and nanostructures: quantum wires and quantum dots

Quantum Dots and Quantum Lines A quantum dot typically contains between 1 to 200 atoms in diameter and its length, width, and high are generally defined less than 100nm. The electron is retrained by Fermi

wavelength. Quantum dot is confined in 3 dimensions and quantum line is confined in 2 dimensions.

Page 3: Nanodevices and nanostructures: quantum wires and quantum dots

Quantum Dots Applications Si single electron transistors

Quantum Computer

Page 4: Nanodevices and nanostructures: quantum wires and quantum dots

Quantum Dots Applications

Nanobarcodes nanobarcodes are made

different quantum wires of different metals that have different reflectivity.

Molecule capsule in drug delivery system

Page 5: Nanodevices and nanostructures: quantum wires and quantum dots

Quantum Confinement Under 100nm, the

wave property of electron can not be ignored.

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Tunneling Effect

Page 7: Nanodevices and nanostructures: quantum wires and quantum dots

Coulomb Blockade a Coulomb

blockade is the increased resistance at small bias voltage of an electronic device comprising at lease one low-capacitance tunnel junction.

Page 8: Nanodevices and nanostructures: quantum wires and quantum dots

Bottom-Up

Page 9: Nanodevices and nanostructures: quantum wires and quantum dots

Self Assembly Applicatoins: solar cell, light-emitting diodes, capsule in drug delivery system

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Chemical Colloidal Method

Page 11: Nanodevices and nanostructures: quantum wires and quantum dots

Lithography and Etching Lithography: electron beam, ion beam, nanoimprint, dip pen nanolithography Etching: wet etching, dry etching, plasma, implantation, photo etching

Page 12: Nanodevices and nanostructures: quantum wires and quantum dots

Split-gate Approach Use additional voltage to create 2

dimensional confinements to control the shape and size of the quantum dot’s gate.

It’s a combination of e beam lithography, evaporation, lift off, contact annealing

Quantum Confinement in Nanostructures Confined in: 1 Direction: Quantum well (thin film) Two-dimensional electrons 2 Directions: Quantum wire One-dimensional.

Nanodevices for Quantum Computation - Universitetet i …folk.uio.no/yurig/Nanotechnology/Qubit/Qubit.pdf · · 2010-02-21Nanodevices for Quantum Computation ... Michel A. Nielsen

nnt2019.org · Web view2 Centre for Research on Adaptive Nanostructures and Nanodevices (CRANN) and School of Physics, Trinity College Dublin, Dublin 2, Ireland E-mail: [email protected]

Nonlinear circuit foundations for nanodevices, part I: … Circuit Foundations for Nanodevices, ... NONLINEAR CIRCUIT FOUNDATIONS FOR NANODEVICES, PART I: ... voltage from any terminal

Ordered Quantum Wire and Quantum Dot Heterostructures Grown on Patterned Substrates Eli Kapon Laboratory of Physics of Nanostructures Swiss Federal Institute.

$Optics and Quantum Optics with Semiconductor …math.arizona.edu/~nrw/Spring_School_2005/KOCH.pdf · Optics and Quantum Optics with Semiconductor Nanostructures Stephan W. Koch Department$