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High-Q surface electromagnetic wave resonance excitation in magnetophotonic crystals for supersensitive detection of weak light absorption in the near-infrared

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High-Q surface electromagnetic wave resonance excitation in magnetophotonic crystals for supersensitive detection of weak light absorption in the near-infrared. / Borovkova, O. V.; Ignatyeva, D. O.; Sekatskii, S. K. et al.
In: Photonics Research, Vol. 8, No. 1, 01.01.2020, p. 57-64.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Borovkova, OV, Ignatyeva, DO, Sekatskii, SK, Karabchevsky, A & Belotelov, VI 2020, 'High-Q surface electromagnetic wave resonance excitation in magnetophotonic crystals for supersensitive detection of weak light absorption in the near-infrared', Photonics Research, vol. 8, no. 1, pp. 57-64. https://doi.org/10.1364/PRJ.8.000057

APA

Borovkova, O. V., Ignatyeva, D. O., Sekatskii, S. K., Karabchevsky, A., & Belotelov, V. I. (2020). High-Q surface electromagnetic wave resonance excitation in magnetophotonic crystals for supersensitive detection of weak light absorption in the near-infrared. Photonics Research, 8(1), 57-64. https://doi.org/10.1364/PRJ.8.000057

Vancouver

Borovkova OV, Ignatyeva DO, Sekatskii SK, Karabchevsky A, Belotelov VI. High-Q surface electromagnetic wave resonance excitation in magnetophotonic crystals for supersensitive detection of weak light absorption in the near-infrared. Photonics Research. 2020 Jan 1;8(1):57-64. doi: 10.1364/PRJ.8.000057

Author

Borovkova, O. V. ; Ignatyeva, D. O. ; Sekatskii, S. K. et al. / High-Q surface electromagnetic wave resonance excitation in magnetophotonic crystals for supersensitive detection of weak light absorption in the near-infrared. In: Photonics Research. 2020 ; Vol. 8, No. 1. pp. 57-64.

Bibtex

@article{d5293c6f26b74d61ad8201a94f07da70,
title = "High-Q surface electromagnetic wave resonance excitation in magnetophotonic crystals for supersensitive detection of weak light absorption in the near-infrared",
abstract = "The mid-infrared spectrum can be recorded from almost any material, making mid-infrared spectroscopy an extremely important and widely used sample characterization and analysis technique. However, sensitive photo-conductive detectors operate primarily in the near-infrared (NIR), but not in the mid-infrared, making the NIR more favorable for accurate spectral analysis. Although the absorption cross section of vibrational modes in the NIR is orders of magnitude smaller compared to the fundamental vibrations in the mid-infrared, different concepts have been proposed to increase the detectability of weak molecular transitions overtones. Yet, the contribution of magnetophotonic structures in the NIR absorption effect has never been explored so far. Here we propose high-Q magnetophotonic structures for a supersensitive detection of weak absorption resonances in the NIR. We analyze the contributions of both magnetic and nonmagnetic photonic crystal configurations to the detection of weak molecular transitions overtones. Our results constitute an important step towards the development of highly sensitive spectroscopic tools based on high-Q magnetophotonic sensors.",
author = "Borovkova, {O. V.} and Ignatyeva, {D. O.} and Sekatskii, {S. K.} and A. Karabchevsky and Belotelov, {V. I.}",
year = "2020",
month = jan,
day = "1",
doi = "10.1364/PRJ.8.000057",
language = "English",
volume = "8",
pages = "57--64",
journal = "Photonics Research",
issn = "2327-9125",
publisher = "OSA Publishing",
number = "1",

}

RIS

TY - JOUR

T1 - High-Q surface electromagnetic wave resonance excitation in magnetophotonic crystals for supersensitive detection of weak light absorption in the near-infrared

AU - Borovkova, O. V.

AU - Ignatyeva, D. O.

AU - Sekatskii, S. K.

AU - Karabchevsky, A.

AU - Belotelov, V. I.

PY - 2020/1/1

Y1 - 2020/1/1

N2 - The mid-infrared spectrum can be recorded from almost any material, making mid-infrared spectroscopy an extremely important and widely used sample characterization and analysis technique. However, sensitive photo-conductive detectors operate primarily in the near-infrared (NIR), but not in the mid-infrared, making the NIR more favorable for accurate spectral analysis. Although the absorption cross section of vibrational modes in the NIR is orders of magnitude smaller compared to the fundamental vibrations in the mid-infrared, different concepts have been proposed to increase the detectability of weak molecular transitions overtones. Yet, the contribution of magnetophotonic structures in the NIR absorption effect has never been explored so far. Here we propose high-Q magnetophotonic structures for a supersensitive detection of weak absorption resonances in the NIR. We analyze the contributions of both magnetic and nonmagnetic photonic crystal configurations to the detection of weak molecular transitions overtones. Our results constitute an important step towards the development of highly sensitive spectroscopic tools based on high-Q magnetophotonic sensors.

AB - The mid-infrared spectrum can be recorded from almost any material, making mid-infrared spectroscopy an extremely important and widely used sample characterization and analysis technique. However, sensitive photo-conductive detectors operate primarily in the near-infrared (NIR), but not in the mid-infrared, making the NIR more favorable for accurate spectral analysis. Although the absorption cross section of vibrational modes in the NIR is orders of magnitude smaller compared to the fundamental vibrations in the mid-infrared, different concepts have been proposed to increase the detectability of weak molecular transitions overtones. Yet, the contribution of magnetophotonic structures in the NIR absorption effect has never been explored so far. Here we propose high-Q magnetophotonic structures for a supersensitive detection of weak absorption resonances in the NIR. We analyze the contributions of both magnetic and nonmagnetic photonic crystal configurations to the detection of weak molecular transitions overtones. Our results constitute an important step towards the development of highly sensitive spectroscopic tools based on high-Q magnetophotonic sensors.

U2 - 10.1364/PRJ.8.000057

DO - 10.1364/PRJ.8.000057

M3 - Journal article

VL - 8

SP - 57

EP - 64

JO - Photonics Research

JF - Photonics Research

SN - 2327-9125

IS - 1

ER -