Thu, 05-11-1998, 18:15 Uhr

Multi-Photon Excitation of Fluorescence and Light Quenching by Stimulated Emission

J. R. Lakowicz, Ph.D.
University of Maryland, Department of Biochemistry, Baltimore, Maryland, USA
vollständiger Text

Time-resolved fluorescence is widely used to study the structure and dynamics of biological macromolecules. The time-resolved decays are typically initiated by one-photon excitation. In this lecture, we describe the emerging topic of multi-photon excitation, in which the fluorophores simultaneously absorb two or more long wavelenths photons to reach the first excited state. Multi-photon excitation provides a more highly oriented population then does single-photon excitation. Additionally, the excited molecules are spatially localized.

This lecture will also describe the use of long wavelength pulses to modify the excited state population, a phenomena we call light quenching. Light quenching can be used to delete fluorophores based on their emission wavelength, orientation or lifetime. Light quenching provides a new approch to time-resolved fluorescence based on the use of multiple light pulses to modify the excited state population.

<- Zurück zu: Termine WS1998/99


		Thu, 05-11-1998, 18:15 Uhr Multi-Photon Excitation of Fluorescence and Light Quenching by Stimulated Emission J. R. Lakowicz, Ph.D. University of Maryland, Department of Biochemistry, Baltimore, Maryland, USA vollständiger Text Time-resolved fluorescence is widely used to study the structure and dynamics of biological macromolecules. The time-resolved decays are typically initiated by one-photon excitation. In this lecture, we describe the emerging topic of multi-photon excitation, in which the fluorophores simultaneously absorb two or more long wavelenths photons to reach the first excited state. Multi-photon excitation provides a more highly oriented population then does single-photon excitation. Additionally, the excited molecules are spatially localized. This lecture will also describe the use of long wavelength pulses to modify the excited state population, a phenomena we call light quenching. Light quenching can be used to delete fluorophores based on their emission wavelength, orientation or lifetime. Light quenching provides a new approch to time-resolved fluorescence based on the use of multiple light pulses to modify the excited state population. <- Zurück zu: Termine WS1998/99

Multi-Photon Excitation of Fluorescence and Light Quenching by Stimulated Emission

J. R. Lakowicz, Ph.D. University of Maryland, Department of Biochemistry, Baltimore, Maryland, USA vollständiger Text

J. R. Lakowicz, Ph.D.
University of Maryland, Department of Biochemistry, Baltimore, Maryland, USA
vollständiger Text