Bulletin de la Société Royale des Sciences de Liège Bulletin de la Société Royale des Sciences de Liège -  Volume 65 - Année 1996  Numéro 4-5 

Flash absorption spectroscopy
Priciple and applications in plant photosynthesis research

Klaus Brettel
Section de Bioénegétique and CNRS-URA 2096, Département de Biologie Cellulaire et Moléculaire, CEA Saclay, 91191 Gif-sur Yvette Cedex, France

1. Introduction

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2. Principle

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Figure 1 : Principle of measurement of flash-induced absorption changes

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3. Main elements of the experimental set-up

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4. Some practical aspects

4.1 Time resolution

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4.2 Signal-to-noise ratio

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Figure 2: Dependance of the signal-to-noise ratio on the transmission of the sample. Different T values represent different optical paths l or different concentrations c of the same sample. The following assumptions about the noise sources were made: Trace a: shot noise is the only the only noise source. Trace B: thermal noise of the detection system contributes in addition to the shot noise; the ratio ofthermal noise to shot noise is sqrt(2):1 at T = 0.14. Trace c: fluctuations of the radiant power of measuring light source contribute in addition to the shot noise; the ratio of these fluctuations to the shot noise is sqrt(2):1 at T = 0.14. Trace d: all three noise sources contribute equally at T = 0.14. See text and Ref. [6] for further details. Redrawn from Ref. [6].

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4.3 Actinic effect of the measuring light

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4.4 Fluorescence artefact

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4.5 Exemples of set-ups with sub-microsecond time-resolution

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References

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Pour citer cet article

Klaus Brettel, «Flash absorption spectroscopy», Bulletin de la Société Royale des Sciences de Liège [En ligne], Volume 65 - Année 1996, Numéro 4-5, 262-268 URL : http://popups.ulg.be/0037-9565/index.php?id=9871.