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Trion clustering structure and binding energy in two-dimensional semiconductor materials: Faddeev equations approach

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Author(s):
Mohseni, K. ; Hadizadeh, M. R. ; Frederico, T. ; da Costa, D. R. ; Chaves, A. J.
Total Authors: 5
Document type: Journal article
Source: PHYSICAL REVIEW B; v. 107, n. 16, p. 15-pg., 2023-04-27.
Abstract

In this paper, we develop the basic formalism to study trions in semiconductor layered materials using the Faddeev equations in momentum space for three different particles lying in two dimensions. We solve the trion Faddeev coupled integral equations for both short-range one-term separable Yamaguchi potential and Rytova-Keldysh (RK) interaction applied to the MoS2 layer. We devise two distinct regularization methods to overcome the challenge posed by the repulsive electron-electron RK potential in the numerical solution of the Faddeev equations in momentum space. The first method regulates the repulsive interaction in the infrared region, while the second regulates it in the ultraviolet region. By extrapolating the trion energy to the situation without screening, the two methods gave consistent results for the MoS2 layer with a trion binding energy of -49.5(1 ) meV for the exciton energy of -753.3 meV. We analyzed the trion structure for the RK and Yamaguchi potentials in detail, showing their overall similarities and the dominant cluster structure, where the strongly bound exciton is weakly bound to an electron. We found that this property is manifested in the dominance of two of the Faddeev components over the one where the hole is a spectator of the interacting electron pair. (AU)

FAPESP's process: 19/07767-1 - Nuclear reactions with weakly-bound or cluster-structured radioactive and stable nuclei
Grantee:Leandro Romero Gasques
Support Opportunities: Research Projects - Thematic Grants
FAPESP's process: 22/08086-0 - Polaritons, excitons and trions in van der Waals heterostructures
Grantee:André Jorge Carvalho Chaves
Support Opportunities: Regular Research Grants