17. Dynamic and Spectroscopic Modes and Multivariate Data Analysis in Piezoresponse Force Microscopy

Nonvolatile bias-controlled polarization states in ferroelectric materials offer unique opportunities for information technology and data storage applications. The ability to probe ferroelectric properties at the nanoscale by piezoresponse force microscopy (PFM) has enabled fundamental studies of polarization dynamics and the role of defects and disorder on domain nucleation and wall motion and has led to advances in the design and implementation of such applications. This has resulted in the development of fast spectroscopic modes to collect polarization switching data from every point in an image. The emergence of fast, configurable data processing electronics has prompted the development of dynamic and nonsinusoidal data acquisition methods for PFM. Further, the recent synergy of spectroscopic and dynamic modes has necessitated the development of multivariate data analysis and processing in PFM. These recent advances in the applications of PFM for imaging and spectroscopy of the ferroelectric switching processes will be discussed.