A. Kramer et al., SCANNING NEAR-FIELD FLUORESCENCE MICROSCOPY OF THIN ORGANIC FILMS AT THE WATER AIR INTERFACE/, Ultramicroscopy, 71(1-4), 1998, pp. 123-132
We present an aperture scanning near-field optical microscope that has
the ability of investigating objects at the liquid/air interface, e.g
. molecularly thin films floating on a water subphase. For controlling
the tip - sample distance, only the transmitted light is used. This s
ignal shows the well-known interference fringes when approaching the t
ip towards a surface. Using modulation techniques, it is possible to k
eep the tip at an extremum of the intensity-distance curve. For high-r
esolution imaging the tip needs to come closer to the sample surface w
ith respect to the regulation set value. We accomplish this by interru
pting the distance regulation feedback in the forward scan, and moving
the tip across the sample additionally approached by a set value. Thu
s, we scan the tip at constant height in the near-field of the sample.
This excludes artifacts which sometimes arise in the mostly used topo
graphy following scan mode. We present transmission and fluorescence c
ontrast images of a thin metal film and of polydiacetylene thin films,
both floating on water. (C) 1998 Elsevier Science B.V. All rights res
erved.