Index
Abbe diffraction limit of microscopic
resolution, 87
abraded dust, 236
abrasion, 230
abrasion mechanism, 233
abrasion of material, 237
abrasive nanoscratch appearance, 233
abrasive phenomena, 232
abrasive process, 252
abrasive wear, 229
abrasive wear properties, 230
acoustic detection, 230
acoustic detectors, 234
active probes, 88
adenine, 152
adhesion, 17, 182, 192, 212, 230, 233
AFM, 235
AFM images, 184
AFM measurements, 178
AFM on (very) rough surfaces, 62
AFM response, 112
AFM tips and mount, 7
Agar 100 resin, 158
aggregation of polymer beads, 139
(ALS) as electrodynamic positioners, 8
aluminum, 105, 180, 186, 202, 203, 210
Alzheimer disease, 63
ambient humidity, 105
ambient sharp tips, 91
ambient surface modifications, 27
o-aminophenol, 212
2-aminophenol, 217
amorphous to amorphous phase
transition, 198, 199, 247
amyloid aggregation, 63
ancient history, 63
angle anisotropies, 232
angular aggregation, 162, 257
angular anisotropy, 233, 257
angular dependence, 257
anisotropic crystal lattices, 257
anisotropic deformations, 192
anisotropic effects, 183
anisotropic indentation, 265
anisotropic molecular migrations, 122,
213, 214, 233, 238, 262, 266
anisotropic nanoscratching, 258
anisotropic organic crystals, 211, 223
anisotropic scratch responses, 230
anisotropic scratching, 255
anisotropy, 31, 177, 182, 185, 206, 208,
209, 212, 231, 242, 246, 260
anisotropy of the microhardness, 185
anthracene, 25, 105, 119, 123, 163, 213,
214, 217, 261, 262
anthraquinone, 120
antithrombogenic polymers, 65
aperture radius, 88
aperture Raman SNOM, 150
aperture SNOM, 88
aperture SNOM equipment, 95
aperture SNOM photolithography, 163
apertureless back to the fiber
emission in constant shear-force
distance, 155
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280
Index
apertureless back-to-the-fiber SNOM,
101
apertureless fluorescence SNOM, 161
apertureless reflection-back-to-the-fiber
SNOM, 96
apertureless scattering SNOM, 163
apertureless shear-force SNOM, 98, 152,
163
apertureless shear-force SNOM with
enhanced reflection back to the
sharp fiber, 135
apertureless shear-force SNOM with
uncoated tips, 134
apertureless SIAM, 163
apertureless SNOM, 87, 90
apertureless SNOM at constant
shear-force, 149
appearance of nanoscratches, 237
applications of SNOM in biology and
medicine, 135
approach curves, 103
approach of a sharp illuminated
multimode tapered quartz glass
tip, 93
aquatic transport mechanisms, 67
aqueous habitats on Mars, 67
area function, 187, 191
area of impression, 187
artifact-free SNOM, 91, 158
artifacts, 106
artificial optical stripes contrast, 111
artificial stripes contrast, 108, 109
as-sharp-as-possible pulling, 58
astrophysics, 66
asymmetric scratches, 238
asymmetric tips scrape, 18
atomic force microscope, 1, 3, 229
attack angle, 246
audio loudspeakers, 8
automotive polymers, 65
average pressure, 204, 205, 245
basic assumptions, 192
beads, 16, 60
beam-deposited diamond-like tip, 6
benzimidazole, 34
2-benzylidene-cyclopentanone, 212, 237
benzylidene-cyclopentanone, 217
Berkovich indenter, 179
best scan direction, 10
biogenic carbonate minerals, 67
biology and medicine, 63
biomineralization process, 67
bladder cancer tissue, 146
bladder tissue, 146
blunt tips, 93, 109
blunt, abraded, or broken tips, 59
bond breaking, 232
bond cleavages, 270, 271
bonding properties, 216
bone structures, 64
bone-bonding ability, 66
brick-like features, 54
brick-like structures, 52
bright plate-like contrasts, 148
brittle properties, 270
brittle removal, 230
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- Fall '08
- Dempere
- SNOM, Scanning probe microscopy, Atomic force microscopy, Raman SNOM, chemical contrast
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