Quantum Dot Lab

By Prasad Sarangapani1; James Fonseca1; Daniel F Mejia1; James Charles1; Woody Gilbertson1; Tarek Ahmed Ameen1; Hesameddin Ilatikhameneh1; Andrew Roché2; Lars Bjaalie3; Sebastian Steiger1; David Ebert1; Matteo Mannino1; Hong-Hyun Park1; Tillmann Christoph Kubis1; Michael Povolotskyi1; Michael McLennan1; Gerhard Klimeck1

1. Purdue University 2. University of Louisiana at Lafayette 3. University of Illinois at Urbana-Champaign

Compute the eigenstates of a particle in a box of various shapes including domes, pyramids and multilayer structures.

Launch Tool

You must login before you can run this tool.

Version 3.2.2 - published on 26 Feb 2024

doi:10.21981/CPJ9-3Q95 cite this

This tool is closed source.

First-Time User Guide View All Supporting Documents


New Wish

Recent Wishes (6)
840 Let users select a material for the simple quantum dot
Proposed by Tanya Faltens @
0 Dislike
271 Present the eigen energy spectum of a quantum dot as a function of occurance
Proposed by Gerhard Klimeck @
0 Like 0 Dislike
270 Enable simulation of artificial Molecules - Stacked quantum dots
Proposed by Gerhard Klimeck @
0 Dislike
743 Lateral x/y domain size should be automatically shared amongst the substrate, wetting layer and the capping layer. If not this will cause wrong simulations
Proposed by Gerhard Klimeck @
0 Dislike Granted
693 enable strain simulation for realistic dots
Proposed by Gerhard Klimeck @
0 Like 0 Dislike Granted
122 Barrier constitution in QDLab
Proposed by Celso de A. Duarte @
0 Dislike Granted