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Main Authors: Yang, Zhuo, Wang, Jinbo, Ishii, Yuto, Maude, Duncan K., Miyata, Atsuhiko, Matsuda, Yasuhiro H.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.00661
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author Yang, Zhuo
Wang, Jinbo
Ishii, Yuto
Maude, Duncan K.
Miyata, Atsuhiko
Matsuda, Yasuhiro H.
author_facet Yang, Zhuo
Wang, Jinbo
Ishii, Yuto
Maude, Duncan K.
Miyata, Atsuhiko
Matsuda, Yasuhiro H.
contents Hydrogen-like systems in ultra-high magnetic fields are of significant interest in interdisciplinary research. Previous studies have focused on the exciton wavefunction shrinkage under magnetic fields down to artificial crystal lattices (e.g., quantum wells, superlattices), where the effective mass approximation remains valid. However, further compression toward the natural crystal lattice scale remains experimentally challenging. In this study, we report magneto-absorption measurements on the yellow-exciton series in Cu2O using pulsed magnetic fields of up to 500 T. The strong low energy absorption features are assigned to the spin Zeeman split 2p0 and 3p0 exciton states. The high field data provides a value for the reduced effective mass of the exciton u* = 0.415 \pm 0.01me. Intriguingly, the broadening of the 2p0 ground state transition exhibits a sudden increase for ultrahigh magnetic fields above 300 T, providing possible evidence for Harper broadening - an indication of the breakdown of the effective mass approximation when the magnetic length becomes comparable to the lattice constant of the crystal.
format Preprint
id arxiv_https___arxiv_org_abs_2510_00661
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Possible evidence for Harper broadening in the yellow exciton series of Cu2O at ultrahigh magnetic fields
Yang, Zhuo
Wang, Jinbo
Ishii, Yuto
Maude, Duncan K.
Miyata, Atsuhiko
Matsuda, Yasuhiro H.
Materials Science
Optics
Hydrogen-like systems in ultra-high magnetic fields are of significant interest in interdisciplinary research. Previous studies have focused on the exciton wavefunction shrinkage under magnetic fields down to artificial crystal lattices (e.g., quantum wells, superlattices), where the effective mass approximation remains valid. However, further compression toward the natural crystal lattice scale remains experimentally challenging. In this study, we report magneto-absorption measurements on the yellow-exciton series in Cu2O using pulsed magnetic fields of up to 500 T. The strong low energy absorption features are assigned to the spin Zeeman split 2p0 and 3p0 exciton states. The high field data provides a value for the reduced effective mass of the exciton u* = 0.415 \pm 0.01me. Intriguingly, the broadening of the 2p0 ground state transition exhibits a sudden increase for ultrahigh magnetic fields above 300 T, providing possible evidence for Harper broadening - an indication of the breakdown of the effective mass approximation when the magnetic length becomes comparable to the lattice constant of the crystal.
title Possible evidence for Harper broadening in the yellow exciton series of Cu2O at ultrahigh magnetic fields
topic Materials Science
Optics
url https://arxiv.org/abs/2510.00661