The use of a laser to induce oscillations of an atomic force microscopy cantilever provides a way to excite the dynamics of the system in a very controlled manner. This excitation scheme has been used to obtain reliable self-sustained oscillations, in air and in liquid environments, and to implement an additional control loop leading to a soft, low-interaction, working mode. The dynamics of the oscillating cantilever has been characterized, both theoretically and experimentally, and the effectiveness of the approach has been verified on a test sample.
Self-driven soft imaging in liquid by means of photothermal excitation / P. Paoletti;M. Basso;V. Pini;B. Tiribilli;M. Vassalli. - In: JOURNAL OF APPLIED PHYSICS. - ISSN 0021-8979. - STAMPA. - 110:(2011), pp. 114315-114320. [10.1063/1.3665396]
Self-driven soft imaging in liquid by means of photothermal excitation
PAOLETTI, PAOLO;BASSO, MICHELE;VASSALLI, MASSIMO
2011
Abstract
The use of a laser to induce oscillations of an atomic force microscopy cantilever provides a way to excite the dynamics of the system in a very controlled manner. This excitation scheme has been used to obtain reliable self-sustained oscillations, in air and in liquid environments, and to implement an additional control loop leading to a soft, low-interaction, working mode. The dynamics of the oscillating cantilever has been characterized, both theoretically and experimentally, and the effectiveness of the approach has been verified on a test sample.
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