Optimal parameters in variable-velocity scanning luminescence lifetime microscopy

Zdenek Petrasek; Juan M. Bolivar; Bernd Nidetzky

doi:10.1002/jemt.23566

Optimal parameters in variable-velocity scanning luminescence lifetime microscopy

Zdenek Petrasek^*, Juan M. Bolivar, Bernd Nidetzky^*

^*Corresponding author for this work

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

Abstract

We determine the optimal parameters (scan velocities) for measuring the luminescence lifetime on the microsecond scale using the recently introduced method based on scanning the excitation beam across the sample. Using simulations, we evaluate the standard deviation and bias of the luminescence decay rate determined by scanning with two different velocities. The analysis is performed for Poisson- and normal-distributed signals, representing different types of detection techniques. We also show that a weak uncorrected background induces a bias in the obtained decay rate, and take this effect into account when choosing optimal measurement parameters. For comparison, the analysis is additionally performed for two conventional gating schemes for lifetime measurement. The variable-velocity scanning method is found to be more robust to the effect of the background signal than the gating schemes.

Original language	English
Pages (from-to)	71-78
Number of pages	8
Journal	Microscopy Research and Technique
Volume	84
Issue number	1
DOIs	https://doi.org/10.1002/jemt.23566
Publication status	Published - Jan 2021

Keywords

confocal laser scanning microscopy
error analysis
lifetime imaging
luminescence
phosphorescence

ASJC Scopus subject areas

Instrumentation
Medical Laboratory Technology
Anatomy
Histology

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title = "Optimal parameters in variable-velocity scanning luminescence lifetime microscopy",

abstract = "We determine the optimal parameters (scan velocities) for measuring the luminescence lifetime on the microsecond scale using the recently introduced method based on scanning the excitation beam across the sample. Using simulations, we evaluate the standard deviation and bias of the luminescence decay rate determined by scanning with two different velocities. The analysis is performed for Poisson- and normal-distributed signals, representing different types of detection techniques. We also show that a weak uncorrected background induces a bias in the obtained decay rate, and take this effect into account when choosing optimal measurement parameters. For comparison, the analysis is additionally performed for two conventional gating schemes for lifetime measurement. The variable-velocity scanning method is found to be more robust to the effect of the background signal than the gating schemes.",

keywords = "confocal laser scanning microscopy, error analysis, lifetime imaging, luminescence, phosphorescence",

author = "Zdenek Petrasek and Bolivar, {Juan M.} and Bernd Nidetzky",

year = "2021",

month = jan,

doi = "10.1002/jemt.23566",

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journal = "Microscopy Research and Technique",

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AU - Petrasek, Zdenek

AU - Bolivar, Juan M.

AU - Nidetzky, Bernd

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N2 - We determine the optimal parameters (scan velocities) for measuring the luminescence lifetime on the microsecond scale using the recently introduced method based on scanning the excitation beam across the sample. Using simulations, we evaluate the standard deviation and bias of the luminescence decay rate determined by scanning with two different velocities. The analysis is performed for Poisson- and normal-distributed signals, representing different types of detection techniques. We also show that a weak uncorrected background induces a bias in the obtained decay rate, and take this effect into account when choosing optimal measurement parameters. For comparison, the analysis is additionally performed for two conventional gating schemes for lifetime measurement. The variable-velocity scanning method is found to be more robust to the effect of the background signal than the gating schemes.

AB - We determine the optimal parameters (scan velocities) for measuring the luminescence lifetime on the microsecond scale using the recently introduced method based on scanning the excitation beam across the sample. Using simulations, we evaluate the standard deviation and bias of the luminescence decay rate determined by scanning with two different velocities. The analysis is performed for Poisson- and normal-distributed signals, representing different types of detection techniques. We also show that a weak uncorrected background induces a bias in the obtained decay rate, and take this effect into account when choosing optimal measurement parameters. For comparison, the analysis is additionally performed for two conventional gating schemes for lifetime measurement. The variable-velocity scanning method is found to be more robust to the effect of the background signal than the gating schemes.

KW - confocal laser scanning microscopy

KW - error analysis

KW - lifetime imaging

KW - luminescence

KW - phosphorescence

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DO - 10.1002/jemt.23566

M3 - Article

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JO - Microscopy Research and Technique

JF - Microscopy Research and Technique

IS - 1

ER -

Optimal parameters in variable-velocity scanning luminescence lifetime microscopy

Abstract

Keywords

ASJC Scopus subject areas

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