Magnetotransport in the Q-1DES comprised of vertically stacked quantum dots
ORAL
Abstract
We investigate a periodic system of vertically stacked InAs/GaAs quantum dots (VSQD) subjected to a two-dimensional confining harmonic potential and a magnetic field in the
symmetric gauge. Given the tiny length scales, adequate lateral confinement, and strong vertical coupling involved in the experiments, the VSQD system has become known for mimicking the standard semiconducting quantum wires. An exact analytical diagnosis of the problem allows us to show the system’s direct relevance to the physics of musical
sounds, magnetization, magnetotransport, and the designing of the optical amplifiers. The results suggest making the most of the system for applications in single-electron
devices and quantum state transfer in the quantum computation and quantum communication networks.
symmetric gauge. Given the tiny length scales, adequate lateral confinement, and strong vertical coupling involved in the experiments, the VSQD system has become known for mimicking the standard semiconducting quantum wires. An exact analytical diagnosis of the problem allows us to show the system’s direct relevance to the physics of musical
sounds, magnetization, magnetotransport, and the designing of the optical amplifiers. The results suggest making the most of the system for applications in single-electron
devices and quantum state transfer in the quantum computation and quantum communication networks.
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Publication: 1. M.S. Kushwaha, J. Chem. Phys. 135, 124704 (2011).
2. M.S. Kushwaha, Europhys. Lett. 127, 37004 (2019).
3. M.S. Kushwaha, Mod. Phys. Lett. B 34, 2150173 (2020).
4. M.S. Kushwaha, Europhys. Lett. 136, 17006 (2021).
Presenters
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Manvir S Kushwaha
Rice University
Authors
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Manvir S Kushwaha
Rice University