Excitation energy dependence of initial phase shift in Kerr rotation of resident electron spin polarization in a CdTe single quantum well

Yan, L. -P.; Takamure, T.; Kaji, R.; Karczewski, G.; Takeyama, S.; Adachi, S.

doi:10.1002/pssb.201600449


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Excitation energy dependence of initial phase shift in Kerr rotation of resident electron spin polarization in a CdTe single quantum well

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Title:	Excitation energy dependence of initial phase shift in Kerr rotation of resident electron spin polarization in a CdTe single quantum well
Authors:	Yan, L. -P. Browse this author
	Takamure, T. Browse this author
	Kaji, R. Browse this author
	Karczewski, G. Browse this author
	Takeyama, S. Browse this author
	Adachi, S. Browse this author →KAKEN DB
Keywords:	CdTe
	Kerr rotation
	Quantum wells
	spin polarization
	spin precession
Issue Date:	Feb-2017
Publisher:	Wiley-Blackwell
Journal Title:	Physica status solidi B-basic solid state physics
Volume:	254
Issue:	2
Start Page:	1600449
Publisher DOI:	10.1002/pssb.201600449
Abstract:	The generation dynamics of a resident electron spin polarization involve the formation and transformation of the associated optically excited states depending on the excitation photon energy. Initial phase shift in the precession of a resident electron spin polarization gives the important clues to reveal the interplay between the associated excited states and resident electrons. In this work, the excitation energy dependence of the initial phase shift in Kerr rotation of a resident electron spin polarization is investigated in a CdTe/Cd0.85Mg0.15Te single quantum well under a low magnetic field. Through the careful analysis of the spin precession, the excited electron-heavy-hole pairs show unique spin dynamics when the excitation energy is increasing past the neutral exciton resonance. Meanwhile, the negative initial phase shift becomes significantly large in magnitude. The larger initial phase shift and the unique precession traces are caused by the transformation from neutral excitons to negative trions with accompanying the hole spin-flip. The exciton-to-trion transformation time is estimated experimentally to be approximate to 160ps.
Rights:	This is the peer reviewed version of the following article: [physica status solidi (b) Volume 254, Issue 2 February 2017 1600449 , which has been published in final form at http://onlinelibrary.wiley.com/doi/10.1002/pssb.201600449/abstract. This article may be used for non-commercial purposes in accordance with Wiley Terms and Conditions for Self-Archiving.
Type:	article (author version)
URI:	http://hdl.handle.net/2115/68241
Appears in Collections:	工学院・工学研究院 (Graduate School of Engineering / Faculty of Engineering) > 雑誌発表論文等 (Peer-reviewed Journal Articles, etc)

Submitter: 足立智

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