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Back to topSemiconductor Nanophotonics: Materials, Models, and Devices (Hardcover)
Description
Introduction
(Kneissl)
PART A: Semiconductor Nanostructures
(Hoffmann)
- Submonolayer Quantum Dots
(Owschimikow, Pohl, Schliwa, Strittmatter, Eisele D hne, Lehmann, Niermann, Herzog, Lignau)
- Carrier localization in Submonolayer Quantum Dots
d. Static and Dynamic Optical and Electronic Properties of SML QDs
e. Devices based on SML Quantum dots
f. Conclusion and Perspectives
- Stressor-Induced Site Control of Quantum Dots for Single-Photon Sources
(Pohl, Schliwa, Strittmatter, Niermann, Lehmann, Kantner, W nsche Bandelow, Koprucki)
- Stressor-Induced Nucleation of Quantum Dots
- Simulation of Strain in Semiconductors
- Nucleation Control by a Buried Aperture Stressor
- Strain Measurements by means of Electron Holography
- Single-Photon Source based on Stressor-Induced QD Site Control
f. Realization of an efficient current Injection into a single site-controlled quantum dot
g. Conclusion and Perspectives
- Coherent and incoherent dynamics in quantum dots and nanophotonic devices
(L dge, Owschimikow, Lingnau, Kolarczik, Woggon, Vladimirov, Pimenov, Wolfrum, Meinecke)
- Introduction
- Ultrafast carrier dynamics in semiconductors with reduced dimensionality: Quantum-dots, submonolayer QDs and crossed excitons
- Quantum state tomography and dynamics of Wigner functions
- Dynamics and timing jitter in multisection mode-locked laser diodes
- Conclusion and Outlook
- Optical and Structural Properties of Nitride based Nanostructures
(Hoffmann, Christen, Wagner, Bertram, Maultzsch, Eisele)
- Introduction
d. Optical analysis of low-dimensional nitrides
e. Conclusion and Perspectives
- Theory of spectroscopy and light emission of semiconductor nanostructures
- Introduction
- State of the art of microscopic description of quantum dots and atomically thin semiconductors
- Coupled quantum dot-cavity structures
- Radiative emission of confined many particle configurations
- Intraband transitions between bound QD states and states of the host medium
- Two-dimensional spectroscopy in semiconductor nanostructures Conclusion and Outlook
PART B: Nanophotonics Devices
(Kneissl, Reitzenstein)
- Multi-Dimensional modelling and simulation of nanophotonic devices
(Bandelow, Koprucki, Burger, Kantner, W nsche, Mielke, Schmidt, Rotundo, H hne)
a. Introduction
b. Statement of the problem
c.&