Charge-spin-orbital dynamics of one-dimensional two-orbital Hubbard model

Onishi, Hiroaki

We study the real-time evolution of excited states in a one-dimensional two-orbital Hubbard model, by a time-dependent density-matrix renormalization group method. When we consider $e_{rm g}$ orbitals along the direction, electrons can hop only between 3 $^{2}$ - $^{2}$ orbitals due to the spatial anisotropy of the orbital shape. In such a case, creating a hole into the ground state, we observe that wavepackets of the spin density and the charge density propagate in opposite directions with its own individual velocity. Thus, the spin-charge separation is clearly observed. We will discuss the propagation of wavepackets of various types of excited states that possess hole, holon-doublon, magnon, and orbiton.

Language	:	English
Journal	:	Journal of Physics; Conference Series
Volume	:	200
Number	:
Pages	:	p.012152_1 - 012152_4
Publication Year/Month	:	2010/02
Meeting title	:	International Conference on Magnetism 2009 (ICM 2009)
Held date	:	2009/07
Location (city)	:	Karlsruhe
Location (country)	:	Germany
Patent information	:
PDF	:
Paper URL	:	https://doi.org/10.1088/1742-6596/200/1/012152
DOI for research data	:
Keywords	:	no keyword
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Article of JAEA R&D Review	:
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InCites™	:	Percentile:64.59 Category:Materials Science, Multidisciplinary
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Registration No. : BB20091262
JAEA Abstracts No. : 38000867
Paper Submission No. : 7510

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