Influence of the Wavefunction Distribution on Exciton Dissociation in Electric Field

J. Heckötter; M. Freitag; D. Fröhlich; M. Aßmann; M. Bayer; M. A. Semina; M. M. Glazov

doi:10.1134/S1063783418080115

Influence of the Wavefunction Distribution on Exciton Dissociation in Electric Field

Authors: Heckötter J.¹, Freitag M.¹, Fröhlich D.¹, Aßmann M.¹, Bayer M.¹^,2, Semina M.A.², Glazov M.M.²
Affiliations:
1. Experimentelle Physik 2
2. Ioffe Institute
Issue: Vol 60, No 8 (2018)
Pages: 1506-1509
Section: Metals
URL: https://ogarev-online.ru/1063-7834/article/view/203550
DOI: https://doi.org/10.1134/S1063783418080115
ID: 203550

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Abstract

We show that the dissociation threshold of an exciton, a bound electron-hole pair, by an electric field is mainly determined by its energy: as expected, the dissociation voltage decreases with increasing exciton energy. However, within the multiplet of states belonging to a particular principal quantum number n, the dissociation voltage rises with increasing state energy, in contrast to the expectations based on energy arguments. This behavior is demonstrated for the yellow exciton states of Cu₂O and is attributed to the distribution of the wavefunction in the potential landscape, where the lower (higher) lying state in the multiplet is shifted away (towards) the tunnel barrier.

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Influence of the Wavefunction Distribution on Exciton Dissociation in Electric Field

Full Text

Abstract

About the authors

J. Heckötter

M. Freitag

D. Fröhlich

M. Aßmann

M. Bayer

M. A. Semina

M. M. Glazov

Supplementary files