
can anyone please help me by providing self consistent schrodinger poisson’s equation for 1.55um Quantum dot Laser?
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I am working on Quantum Dot Laser. I need to know what is the appropriate Schrodinger Poisson’s equation for 1.55um QD Laser. I need to solve Schrodinger Poisson’s equation. I am...
http://nanohub.org/answers/question/1192

How to start for solving for a single quantum dot in a pn junction?
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I have been assigned to build a simulator for a single quantum dot inside a pn junction. I am supposed to find the eigenstates, absorption spectra. I have written the codes for a Single...
http://nanohub.org/answers/question/1196

Quantum dot transistor
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Designing of quantum dot transistor.(single electron transistor).the source is connected to the drain via quantum dot, which acts as an island. The quantum dot is controlled by gate...
http://nanohub.org/answers/question/818

Aidan Meehan
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Dan Esposito
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Gerhard Klimeck
Gerhard Klimeck is the Reilly Director of the Center for Predictive Materials and Devices (cPRIMED) and the Network for Computational Nanotechnology (NCN) and a Professor of Electrical and...
http://nanohub.org/members/3482

Junzhe Geng
Junzhe Geng is a graduate student in professor Gerhard Klimeck's research group at Purdue Unviersity. He obtained his Bachelor's degree in electrical engineering from Purdue in 2010. His research...
http://nanohub.org/members/35479

Muhammad Usman
Muhammad Usman was graduated from the Electrical & Computer Engineering Department of Purdue University in August 2010. His PhD thesis was theoretical modelling and simulations of InGaAs/GaAs...
http://nanohub.org/members/9702

NEMO5 Overview Presentation
17 Jul 2012  Online Presentations  Contributor(s): Tillmann Christoph Kubis, Michael Povolotskyi, Jean Michel D Sellier, James Fonseca, Gerhard Klimeck
This presentation gives an overview of the current functionality of NEMO5.
http://nanohub.org/resources/14701

NEMO5 Tutorial 5C: Quantum Dots with Strain and Electronic Wave Functions
18 Jul 2012  Online Presentations  Contributor(s): Yuling Hsueh
http://nanohub.org/resources/14745

On the Two to Three Dimensional Growth Transition in Strained Silicon Germanium Thin Films
02 Feb 2012  Publications  Contributor(s): Brian Demczyk
Utilizing a model adapted from classical nucleation theory [8], we calculate a "critical thickness" for island formation, taking into account the surface
energies of the deposit and the substrate...
http://nanohub.org/resources/13003

Quantum dot  Design a laser
09 Nov 2010  Teaching Materials  Contributor(s): SungGeun Kim
This document is a reallife problem for the quantum dot lab tool. Basic knowledge on the operation principle of a quantum dot laser is needed to solve this test. The test requires the tested...
http://nanohub.org/resources/9970

Quantum Dot Lab Learning Materials
By completing the Quantum Dot Lab, users will be able to a) understand the 3D confinement of carriers in a quantum dot, b) describe effects of geometry of a quantum dot on the energy states of...
http://nanohub.org/wiki/QDotLab

Quantum Dot Lab: FirstTime User Guide
08 Feb 2011  Teaching Materials  Contributor(s): SungGeun Kim, Lynn Zentner
This firsttime user guide introduces the quantum dot lab tool. It includes an explanation of the input/output interface and the relationship between inputs and outputs of the quantum dot...
http://nanohub.org/resources/10779

Quantum Dot Quantum Computation Simulator
04 Aug 2012  Tools  Contributor(s): Brian Sutton
Performs simulations of quantum dot quantum computation using a model Hamiltonian with an onsite magnetic field and modulated interdot exchange interaction.
http://nanohub.org/resources/qudosim

Radha Krishnan
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Sergey Nikitaev
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Thien Minh Nguyen
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Udoy Paul
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Why quantum dot simulation domain must contain multimillion atoms?
11 Jan 2013  Online Presentations  Contributor(s): Muhammad Usman
The InGaAs quantum dots obtained from the selfassembly growth process are heavily strained. The longrange strain and piezoelectric fields significantly modifies the electronic structure of the...
http://nanohub.org/resources/16192