Author
Listed:
- F. Chiodi
(CNRS, Univ. Paris-Sud, Université Paris-Saclay, C2N-Orsay)
- S. L. Bayliss
(CNRS, Univ. Paris-Sud, Université Paris-Saclay, LPS-Orsay
University of Cambridge)
- L. Barast
(CNRS, Univ. Paris-Sud, Université Paris-Saclay, C2N-Orsay
CNRS, Univ. Paris-Sud, Université Paris-Saclay, LPS-Orsay)
- D. Débarre
(CNRS, Univ. Paris-Sud, Université Paris-Saclay, LPS-Orsay)
- H. Bouchiat
(CNRS, Univ. Paris-Sud, Université Paris-Saclay, LPS-Orsay)
- R. H. Friend
(University of Cambridge)
- A. D. Chepelianskii
(CNRS, Univ. Paris-Sud, Université Paris-Saclay, LPS-Orsay)
Abstract
In weakly spin–orbit coupled materials, the spin-selective nature of recombination can give rise to large magnetic-field effects, e.g. on the electro-luminescence of molecular semiconductors. Although silicon has weak spin–orbit coupling, observing spin-dependent recombination through magneto-electroluminescence is challenging: silicon’s indirect band-gap causes an inefficient emission and it is difficult to separate spin-dependent phenomena from classical magneto-resistance effects. Here we overcome these challenges and measure magneto-electroluminescence in silicon light-emitting diodes fabricated via gas immersion laser doping. These devices allow us to achieve efficient emission while retaining a well-defined geometry, thus suppressing classical magnetoresistance effects to a few percent. We find that electroluminescence can be enhanced by up to 300% near room temperature in a seven Tesla magnetic field, showing that the control of the spin degree of freedom can have a strong impact on the efficiency of silicon LEDs.
Suggested Citation
F. Chiodi & S. L. Bayliss & L. Barast & D. Débarre & H. Bouchiat & R. H. Friend & A. D. Chepelianskii, 2018.
"Room temperature magneto-optic effect in silicon light-emitting diodes,"
Nature Communications, Nature, vol. 9(1), pages 1-7, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-017-02804-6
DOI: 10.1038/s41467-017-02804-6
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