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Magneto-optical Measurements of Semiconductor Quantum Structures in Pulsed-magnetic Fields
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 Title & Authors
Magneto-optical Measurements of Semiconductor Quantum Structures in Pulsed-magnetic Fields
Kim, Yongmin;
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 Abstract
Semiconductor quantum structures are often characterized by their energy gaps which are modified by the quantum size effect. Energy levels in semiconductors can be realized by optical transitions within confined structures. Photoluminescence spectroscopy in magnetic fields at low temperatures has proved to be a powerful technique for investigating the electronic states of quantum semiconductor heterostructures and offers a complimentary tool to electrical transport studies. In this review, we examine comprehensive investigations of magneto-excitonic and Landau transitions in a large variety of undoped and doped quantum-well structures. Strong magnetic fields change the diamagnetic energy shift of free excitons from quadratic to linear in B in undoped single quantum well samples. Two-dimensional electron gas induced by modulation doping shows pronounce quantum oscillations in integer quantum Hall regime and discontinuous transition at ${\nu}
 Keywords
Photoluminescence;Magnetic field;Quantum well;Spin wave;Skyrmion;
 Language
English
 Cited by
1.
Diamagnetic Shift of a InGaP-AlInGaP Semiconductor Single Quantum Well under Pulsed-magnetic Fields,;;;

Applied Science and Convergence Technology, 2015. vol.24. 5, pp.156-161 crossref(new window)
1.
Diamagnetic Shift of a InGaP-AlInGaP Semiconductor Single Quantum Well under Pulsed-magnetic Fields, Applied Science and Convergence Technology, 2015, 24, 5, 156  crossref(new windwow)
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