A Quarter Ellipsoidal Reflector Enhancing Fluorescence Collection Efficiency For Multiphoton Microscopes

A Quarter Ellipsoidal Reflector Enhancing Fluorescence Collection Efficiency For Multiphoton Microscopes

In this paper, we present a fluorescence collection enhancement method for multiphoton microscopy by a quarter ellipsoidal reflector (QER). It is proven to be compatible with commercially available two-photon microscopes without significant customization. The structure and working principle of the Q...

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Main Authors: Yingshun Xu, Nannan Liu, Xuehui Bao, Bin Liu, Hui Shen
Format: Article
Language:English
Published: IEEE 2016-01-01
Series:IEEE Photonics Journal
Subjects:
Non-linear microscopy
biophotonics instrumentation
fluorescence microscopy
Online Access:https://ieeexplore.ieee.org/document/7600418/
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spelling doaj-35979baca88a4b31b562c1594caaf83c2021-03-29T17:37:51ZengIEEEIEEE Photonics Journal1943-06552016-01-01851910.1109/JPHOT.2016.26152847600418A Quarter Ellipsoidal Reflector Enhancing Fluorescence Collection Efficiency For Multiphoton MicroscopesYingshun Xu0Nannan Liu1Xuehui Bao2Bin Liu3Hui Shen4School of Biomedical Engineering, Tianjin Medical University, Tianjin, ChinaSchool of Biomedical Engineering, Tianjin Medical University, Tianjin, ChinaSchool of Biomedical Engineering, Tianjin Medical University, Tianjin, ChinaSchool of Biomedical Engineering, Tianjin Medical University, Tianjin, ChinaSchool of Biomedical Engineering, Tianjin Medical University, Tianjin, ChinaIn this paper, we present a fluorescence collection enhancement method for multiphoton microscopy by a quarter ellipsoidal reflector (QER). It is proven to be compatible with commercially available two-photon microscopes without significant customization. The structure and working principle of the QER is demonstrated. A QER was fabricated to collect most backscattered photons not collected by an objective lens of an epifluorescence microscope and then reflected photons into an external detector. Fluorescence collection efficiency improvement of 2.75-fold in numerical simulation is obtained. The method is also validated by imaging turbid phantoms and ex vivo biological tissue. Quantum efficiency (QE) corrected experimental results obtained by our method are comparable with those obtained by a nondescanned detection (NDD) scheme of a commercially available multiphoton microscope system. Finally, our method is shown to have potential in neuroscience research for deep tissue imaging.https://ieeexplore.ieee.org/document/7600418/Non-linear microscopybiophotonics instrumentationfluorescence microscopy
collection DOAJ
language English
format Article
sources DOAJ
author Yingshun Xu
Nannan Liu
Xuehui Bao
Bin Liu
Hui Shen
spellingShingle Yingshun Xu
Nannan Liu
Xuehui Bao
Bin Liu
Hui Shen
A Quarter Ellipsoidal Reflector Enhancing Fluorescence Collection Efficiency For Multiphoton Microscopes
IEEE Photonics Journal
Non-linear microscopy
biophotonics instrumentation
fluorescence microscopy
author_facet Yingshun Xu
Nannan Liu
Xuehui Bao
Bin Liu
Hui Shen
author_sort Yingshun Xu
title A Quarter Ellipsoidal Reflector Enhancing Fluorescence Collection Efficiency For Multiphoton Microscopes
title_short A Quarter Ellipsoidal Reflector Enhancing Fluorescence Collection Efficiency For Multiphoton Microscopes
title_full A Quarter Ellipsoidal Reflector Enhancing Fluorescence Collection Efficiency For Multiphoton Microscopes
title_fullStr A Quarter Ellipsoidal Reflector Enhancing Fluorescence Collection Efficiency For Multiphoton Microscopes
title_full_unstemmed A Quarter Ellipsoidal Reflector Enhancing Fluorescence Collection Efficiency For Multiphoton Microscopes
title_sort quarter ellipsoidal reflector enhancing fluorescence collection efficiency for multiphoton microscopes
publisher IEEE
series IEEE Photonics Journal
issn 1943-0655
publishDate 2016-01-01
description In this paper, we present a fluorescence collection enhancement method for multiphoton microscopy by a quarter ellipsoidal reflector (QER). It is proven to be compatible with commercially available two-photon microscopes without significant customization. The structure and working principle of the QER is demonstrated. A QER was fabricated to collect most backscattered photons not collected by an objective lens of an epifluorescence microscope and then reflected photons into an external detector. Fluorescence collection efficiency improvement of 2.75-fold in numerical simulation is obtained. The method is also validated by imaging turbid phantoms and ex vivo biological tissue. Quantum efficiency (QE) corrected experimental results obtained by our method are comparable with those obtained by a nondescanned detection (NDD) scheme of a commercially available multiphoton microscope system. Finally, our method is shown to have potential in neuroscience research for deep tissue imaging.
topic Non-linear microscopy
biophotonics instrumentation
fluorescence microscopy
url https://ieeexplore.ieee.org/document/7600418/
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