Tamm plasmon sub-wavelength structuration for loss reduction and resonance tuning

A. R. Gubaydullin; C. Symonds; J. M. Benoit; L. Ferrier; T. Benyattou; C. Jamois; A. Lemaître; P. Senellart; M. A. Kaliteevski; J. Bellessa

doi:10.1063/1.4991025

Tamm plasmon sub-wavelength structuration for loss reduction and resonance tuning

A. R. Gubaydullin
, C. Symonds
, J. M. Benoit
, L. Ferrier
, T. Benyattou
, C. Jamois
, A. Lemaître
, P. Senellart
, M. A. Kaliteevski
, J. Bellessa

École Polytechnique

Research output: Contribution to journal › Article › peer-review

Abstract

We have demonstrated experimentally and theoretically that losses in Tamm plasmon structures can be reduced by using a subwavelength structuration of the metal layer. The structures consist of a GaAs/Al_0.95Ga_0.05As Bragg reflector covered with a sub-wavelength silver grating. An active quantum dot layer is inserted to perform photoluminescence experiments. Experimental results show that the quality factor of the Tamm plasmon mode with grating increases substantially, with respect to the same structure without a grating. Moreover, a fine-tuning of the Tamm spectral position is obtained by changing the grating parameters. Finite element method simulations are in good agreement with the experimental values. Our results will promote the realization of lasing with the TP based devices at room temperature.

Original language	English
Article number	261103
Journal	Applied Physics Letters
Volume	111
Issue number	26
DOIs	https://doi.org/10.1063/1.4991025
Publication status	Published - 25 Dec 2017

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title = "Tamm plasmon sub-wavelength structuration for loss reduction and resonance tuning",

abstract = "We have demonstrated experimentally and theoretically that losses in Tamm plasmon structures can be reduced by using a subwavelength structuration of the metal layer. The structures consist of a GaAs/Al0.95Ga0.05As Bragg reflector covered with a sub-wavelength silver grating. An active quantum dot layer is inserted to perform photoluminescence experiments. Experimental results show that the quality factor of the Tamm plasmon mode with grating increases substantially, with respect to the same structure without a grating. Moreover, a fine-tuning of the Tamm spectral position is obtained by changing the grating parameters. Finite element method simulations are in good agreement with the experimental values. Our results will promote the realization of lasing with the TP based devices at room temperature.",

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T1 - Tamm plasmon sub-wavelength structuration for loss reduction and resonance tuning

AU - Gubaydullin, A. R.

AU - Symonds, C.

AU - Benoit, J. M.

AU - Ferrier, L.

AU - Benyattou, T.

AU - Jamois, C.

AU - Lemaître, A.

AU - Senellart, P.

AU - Kaliteevski, M. A.

AU - Bellessa, J.

PY - 2017/12/25

Y1 - 2017/12/25

N2 - We have demonstrated experimentally and theoretically that losses in Tamm plasmon structures can be reduced by using a subwavelength structuration of the metal layer. The structures consist of a GaAs/Al0.95Ga0.05As Bragg reflector covered with a sub-wavelength silver grating. An active quantum dot layer is inserted to perform photoluminescence experiments. Experimental results show that the quality factor of the Tamm plasmon mode with grating increases substantially, with respect to the same structure without a grating. Moreover, a fine-tuning of the Tamm spectral position is obtained by changing the grating parameters. Finite element method simulations are in good agreement with the experimental values. Our results will promote the realization of lasing with the TP based devices at room temperature.

AB - We have demonstrated experimentally and theoretically that losses in Tamm plasmon structures can be reduced by using a subwavelength structuration of the metal layer. The structures consist of a GaAs/Al0.95Ga0.05As Bragg reflector covered with a sub-wavelength silver grating. An active quantum dot layer is inserted to perform photoluminescence experiments. Experimental results show that the quality factor of the Tamm plasmon mode with grating increases substantially, with respect to the same structure without a grating. Moreover, a fine-tuning of the Tamm spectral position is obtained by changing the grating parameters. Finite element method simulations are in good agreement with the experimental values. Our results will promote the realization of lasing with the TP based devices at room temperature.

U2 - 10.1063/1.4991025

DO - 10.1063/1.4991025

M3 - Article

AN - SCOPUS:85040069523

SN - 0003-6951

VL - 111

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 26

M1 - 261103

ER -

Tamm plasmon sub-wavelength structuration for loss reduction and resonance tuning

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