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Get to the point!.

Published byGeraldine Woods Modified over 7 years ago

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Presentation on theme: "Get to the point!."— Presentation transcript:

1 Get to the point!

2 surface atoms on Si single crystal
AFM - atomic force microscopy A 'new' view of structure (1986) CD stamper AlGaN/GaN quantum well waveguide surface atoms on Si single crystal polymer growth See Vocabulary of Surface Crystallography, Journal of Applied Physics 35, 1306 (1964), by Elizabeth A. Wood

3 AFM - atomic force microscopy
How does the microscope work? Si3N4 tip laser diode photodiode sample mirror Tip scans sample Up and down movement of tip recorded by position sensing photodiode

4 AFM - atomic force microscopy
How does the microscope work? Si3N4 tip laser diode photodiode sample mirror Tip scans sample Up and down movement of tip recorded by position sensing photodiode

5 AFM - atomic force microscopy
How does the microscope work? Si3N4 tip laser diode photodiode sample mirror Two modes of operation

6 AFM - atomic force microscopy
How does the microscope work? Contact mode - short-range interactions (Å) - interatomic forces Tip: 5-20 nm radius, m high, on m cantilever beam

7 AFM - atomic force microscopy
How does the microscope work? Contact mode - short-range interactions (Å) - interatomic forces Tip: 5-20 nm radius, m high, on m cantilever beam Cantilever: low stiffness - can't deform surface Tip contacts surface Tip scans surface: either tip or specimen moved by piezoelectric positioning system over x and y Detector system can measure deflections in nm range

8 AFM - atomic force microscopy
How does the microscope work? Contact mode - short-range interactions (Å) - interatomic forces Two ways - 'constant force' ……. feedback system moves tip in z direction to keep force constant 'constant height'……. no feedback system - usually used when surface roughness small higher scan speeds possible

9 AFM - atomic force microscopy
How does the microscope work? Tapping mode - long-range forces - van der Waals, electrostatic, magnetic Tip vibrates (105 Hz) close to specimen surface ( Å) with amplitude nm May at times lightly contact surface Suitable for soft materials

10 AFM - atomic force microscopy
How does the microscope work? Tapping mode Tip vibrates (105 Hz) close to specimen surface ( Å) with amplitude nm May at times lightly contact surface When near or on surface, oscillation is damped - tip z position corrected so that vibration amplitude stays constant Tip height Amplitude

11 AFM - atomic force microscopy
From force-distance plot, can get: range & magnitude of attractive & repulsive forces elastic modulus & adhesion energy

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