Forums
Bruker Media
Community Media
Bruker AFM Probes
SPM Digest
Application Notes
NanoTheater
Website
中文
Brochures & Datasheets
Publications
Probes Catalog
Events
Manuals & Documentation
Presentations
Guide to AFM Modes
News
Journal Club
Webinars & Video
Nanovations
Other
Hi all. There have been a number of papers recently that have discussed how the dynamic spring constant can potentially be significanly larger than the static spring constant for AFM cantilevers (e.g. Sader et al. REVIEW OF SCIENTIFIC INSTRUMENTS 83, 103705 (2012))
The difference can be as much as 10% depending on the cantilever geometery. Therefore depending on the calibration technique used the spring constant may have to adjusted. My question is does the thermal nosie method measure the dyanmic or static spring constant ? I realise there are corrections (1.11 for beam shaped and 1.14 for V-shaped) that must be applied to the technique concerning the optical lever sensitivity calibration since the static deflection is different to oscillating motion. However I'm still unsure whether a further correction is necessary given the recent work on dynamic and static spring constants.
Thanks, Chris Gibson.
Chris,
Though I am not a physicist, my guess is that it's static in air and dynamic in fluid but I am not 100% sure.
I found this link you might find interesting:
http://silver.neep.wisc.edu/~msallen/Frentrup-MSThesis-AFMCalibrationNonunif.pdf
Chapters 2, 3 and 4 of this thesis are mentioning that.
Best,
Alex.