Related papers: Anisotropic two-dimensional magnetoexciton with exact center-of-mass separation

Anisotropic two-dimensional magnetoexciton with exact center-of-mass separation

URL: http://arxiv.org/abs/2603.02051v1
Date: Mon, 02 Mar 2026 16:38:09 GMT
Title: Anisotropic two-dimensional magnetoexciton with exact center-of-mass separation
Authors: Dang-Khoa D. Le, Hoang-Viet Le, Dai-Nam Le, Duy-Anh P. Nguyen, Thanh-Son Nguyen, Ngoc-Tram D. Hoang, Van-Hoang Le,
Abstract summary: This work develops an exact framework for c.m. and relative motion separation in anisotropic 2D magnetoexcitons.<n>Results demonstrate the significant influence of anisotropy-dependent coupling on magnetic response in systems with strong mass anisotropy.<n>This formalism is generalizable to other anisotropic 2D semiconductors.
Score: 3.3421154214189293
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Excitons in anisotropic two-dimensional (2D) materials, defined by direction-dependent effective masses, are of pronounced interest for their roles in excitonic and magneto-optical phenomena. A perpendicular magnetic field complicates the separation of center-of-mass (c.m.) and relative motions, especially when electron and hole masses are comparable. Conventional theories often employ an approximate c.m. separation using factorized wave functions, modifying magnetic Hamiltonian terms and possibly introducing inaccuracies in magnetoexciton energy predictions. This work develops an exact analytical framework for c.m. and relative motion separation in anisotropic 2D magnetoexcitons, without resorting to the stationary-c.m. approximation. Starting from the full electron-hole Hamiltonian in a homogeneous magnetic field, the formalism uses the conserved pseudomomentum to derive a relative-motion Hamiltonian, revealing new anisotropy-dependent couplings and magnetic coefficients absent in approximate models. The resulting Schrödinger equation is treated via the Feranchuk-Komarov operator method and Levi-Civita transformation, allowing non-perturbative, systematically convergent solutions. Application to monolayer black phosphorus and titanium trisulfide, both freestanding and encapsulated in hexagonal boron nitride, yields magnetoexciton energies, diamagnetic coefficients, and probability densities for the ten lowest states across considerable magnetic-field ranges. The results demonstrate the significant influence of anisotropy-dependent coupling on magnetic response in systems with strong mass anisotropy. This formalism is generalizable to other anisotropic 2D semiconductors, establishing a foundation for advanced magneto-optical studies.

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