~~TOC~~
2fFCS is an abbreviation 2 Focus Fluorescence Correlation Spectroscopy. Dual focus FCS might also be used.
Correlation analysis that is applied to the fluctuations of the fluorescence intensity. The cross-correlation between the occurrence of events in two different detection volumes is used to introduce an absolute diffusion length into the analysis.
see FCS for a introduction on FCS.
The conjugated pinhole size should be chosen slightly larger than the excitation spot diameter. The conjugated pinhole size is the pinhole diameter divided by the magnification of the objective.
e.g:
Usually the size of the confocal volume or the diameter of the excitation spot is given as its FWHM. However the airy disc diameter is bigger and the 1/e2 diameter must be used.
$2ln(2)=\frac{FWHM^2}{w_0^2}$
$w_0=0.849 \cdot FWHM$
The diameter of the excitation spot therefore is:
$ d_{exc}=2 \cdot w_0 = 594 nm $
Together with the 60x magnification of the objective the airy disc at the pinhole location is
$ d_{PH}=60\cdot 594nm = 35.6\mu m $
This equals 1 airy unit (AU)
Occasionally, pinhole size can be used to adjust amount of photons to change the signal intensity and increase SNR. In addition to the “optimal” 1 AU, Pinhole 1-3 AU is the range of choice. Bigger pinhole give you stronger signal but with the compromised confocal effects.
PicoQuant usually uses a 50 micron pinhole (1.4 AU) to get maximum detection efficiency, somewhat sacrificing background rejection.
The distance between the foci in two-focus FCS is determined by the Nomarski prism. Usually the distance is around 400 nm. Therefore the 2 foci (separated by 400 nm) will occupy:
$ d_{exc, 2fFCS} = 2 \cdot w_0 + 400 nm = 994 nm $
Together with the 60x magnification of the objective both airy discs together, at the the pinhole location, have a diameter
$ d_{PH, 2fFCS}=60\cdot 994nm =59.6\mu m $