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F

FEM

focus-exposure matrix
The variation of linewidth as a function of both focus and exposure energy. The data is typically plotted as linewidth versus focus for different exposure energies.

FEOL

front-end-of-line
All processes from wafer start through final contact window processing.

FFM

Frictional Force Microscopy
Phys. Rev. Lett. 59, 1942 (1987).

FIB

FIB Focused Ion Beam

FMM

Force Modulation Mode, Force Modulation Microscopy
Nanotechnology 2, (1991) 103. Nanotechnology 8, (1997) 163.

FM technique

Frequency modulation technique.
J. Appl. Phys. 69, 668 (1991).
Force modulation technique.

FRET

FRET - fluorescence resonance energy transfer

FSM

Frequency-Shift Mode AFM
In this operating mode the tip oscillates with its new eigenfrequency f' and moves in and out of the interaction region during each oscillation cycle. The new eigenfrequency is different by Df from the original eigenfrequency f due to the tip-surface interaction. An AFM image can be obtained by fixing Df to a certain constant.
Phys. Rev B 59, 13267 (1999)

FTIR

Fourier Transform Infrared Spectroscopy

FUOP

Front Opening Unified Pods

Fuzzy controlled feedback

Appl Phys A 66 7, S49 (1998).

FV-mode

A simple force curve records the force felt by the tip as it approaches and retracts from a point on the sample surface. A force volume contains an array of force curves over the entire sample area and is generated by ramping the z-piezo as the tip scans across the area as shown in the figure above. Each force curve is measured at a unique x-y position in the area, and force curves from an array of x-y points are combined into a three-dimensional array, or "volume," of force data. The value at a point (x,y,z) in the volume is the deflection (force) of the cantilever at that position in space. Volumes can be produced from any available imaging mode such as Tapping Mode or Phase Imaging.