Thermal lens microscope sensitivity enhancement using a passive Fabry-Perot-type optical cavity

H. Cabrera; E. Cedeo; P. Grima; E. Marín; A. Calderón; O. Delgado

doi:10.1088/1612-2011/13/5/055702

Thermal lens microscope sensitivity enhancement using a passive Fabry-Perot-type optical cavity

H. Cabrera, E. Cedeo, P. Grima, E. Marín, A. Calderón, O. Delgado

Centro de Investigación en Ciencia Aplicada y Tecnología Avanzada (CICATA), Unidad Legaria

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Resumen

We developed a thermal lens microscope equipped with a passive optical cavity, which provides an optical feedback for the multiple pass of the probe laser beam to enhance sensitivity. Considering the maximum absorption peak for Fe(II) at 532 nm wavelength, we have achieved a 6.6-fold decrease in the limit of detection (LOD) to a level of 0.077 μg • l^-1 without a cavity. The possibilities to use thermal lens detection combined with an optical resonator was proposed and a drastic thermal lens signal enhancement was achieved using very low excitation power. The corresponding LOD for Fe(II) was further decreased to the level of 0.006 μg • l^-1 which represents an 85-fold decrease of the LOD value. This setup is a promising device, which can be applied as a sensitive tool for detecting chemical traces in small volumes of solutions.

Idioma original	Inglés
Número de artículo	055702
Publicación	Laser Physics Letters
Volumen	13
N.º	5
DOI	https://doi.org/10.1088/1612-2011/13/5/055702
Estado	Publicada - may. 2016

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title = "Thermal lens microscope sensitivity enhancement using a passive Fabry-Perot-type optical cavity",

abstract = "We developed a thermal lens microscope equipped with a passive optical cavity, which provides an optical feedback for the multiple pass of the probe laser beam to enhance sensitivity. Considering the maximum absorption peak for Fe(II) at 532 nm wavelength, we have achieved a 6.6-fold decrease in the limit of detection (LOD) to a level of 0.077 μg • l-1 without a cavity. The possibilities to use thermal lens detection combined with an optical resonator was proposed and a drastic thermal lens signal enhancement was achieved using very low excitation power. The corresponding LOD for Fe(II) was further decreased to the level of 0.006 μg • l-1 which represents an 85-fold decrease of the LOD value. This setup is a promising device, which can be applied as a sensitive tool for detecting chemical traces in small volumes of solutions.",

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AU - Cabrera, H.

AU - Cedeo, E.

AU - Grima, P.

AU - Marín, E.

AU - Calderón, A.

AU - Delgado, O.

PY - 2016/5

Y1 - 2016/5

N2 - We developed a thermal lens microscope equipped with a passive optical cavity, which provides an optical feedback for the multiple pass of the probe laser beam to enhance sensitivity. Considering the maximum absorption peak for Fe(II) at 532 nm wavelength, we have achieved a 6.6-fold decrease in the limit of detection (LOD) to a level of 0.077 μg • l-1 without a cavity. The possibilities to use thermal lens detection combined with an optical resonator was proposed and a drastic thermal lens signal enhancement was achieved using very low excitation power. The corresponding LOD for Fe(II) was further decreased to the level of 0.006 μg • l-1 which represents an 85-fold decrease of the LOD value. This setup is a promising device, which can be applied as a sensitive tool for detecting chemical traces in small volumes of solutions.

AB - We developed a thermal lens microscope equipped with a passive optical cavity, which provides an optical feedback for the multiple pass of the probe laser beam to enhance sensitivity. Considering the maximum absorption peak for Fe(II) at 532 nm wavelength, we have achieved a 6.6-fold decrease in the limit of detection (LOD) to a level of 0.077 μg • l-1 without a cavity. The possibilities to use thermal lens detection combined with an optical resonator was proposed and a drastic thermal lens signal enhancement was achieved using very low excitation power. The corresponding LOD for Fe(II) was further decreased to the level of 0.006 μg • l-1 which represents an 85-fold decrease of the LOD value. This setup is a promising device, which can be applied as a sensitive tool for detecting chemical traces in small volumes of solutions.

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KW - optical cavity

KW - sensitivity

KW - thermal lens microscopy (TLM)

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DO - 10.1088/1612-2011/13/5/055702

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JO - Laser Physics Letters

JF - Laser Physics Letters

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Thermal lens microscope sensitivity enhancement using a passive Fabry-Perot-type optical cavity

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