Lateral quantum dot

Lateral quantum dot

A lateral quantum dot is a type of quantum dot made by imposing a small area of decreased potential in the two dimensional electron gas (2DEG) by means of electrical gates such that electrons or electron holes are confined in the 2DEG plane. The particles are confined in one dimension laterally where they are free to move in the plane of the 2DEG. Once the potential is applied, it is energetically favorable for a certain number of electrons (or holes) to remain confined in a certain area of the 2DEG causing the remaining two-dimensional freedom to be removed and the three dimensional confinement of the electrons or holes. The 2DEG is confined between two semiconductor sheets such as InAs and GaAs. The fabrication process for a lateral dot is much different than that for a self-assembled quantum dot.

implified Conceptualization

Think of it as inside a room with really low ceilings with a trampoline where you can roll a ping pong ball all around it and across it. However, when a rather heavy object is placed in the centre, the ping pong ball rolls towards in the centre and becomes trapped. The electrical gate (heavy object) is what is cause the lowering of the potential (trampoline surface). The particle (ping pong ball) cannot go through the floor, through the ceiling or to the sides of the trampoline; thus it is confined!


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