An atomic force microscopy (AFM) technique is described combining two operating modes that previously were mutually exclusive: gentle imaging of delicate surfaces requiring slow dynamic AFM techniques, and passive feedback contact mode AFM enabling ultra-fast imaging. A high-frequency force modulation is used to excite resonant modes in the MHz range of a highly compliant cantilever force sensor with a spring constant of 0.1 N m?~(-1) The high-order mode acts as a stiff system for modulating the tip-sample distance and a vibration amplitude of 1nm is sufficient to overcome the adhesion interaction. The soft cantilever provides a force-controlled support for the vibrating tip, enabling high-speed intermittent contact force microscopy without feedback control of the cantilever bending. Using this technique, we were able to image delicate polymer surfaces and to completely suppress the formation of the ripple wear patterns that are commonly observed in contact AFM.
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机译:描述了一种原子力显微镜(AFM)技术,该技术结合了以前相互排斥的两种操作模式:需要缓慢动态AFM技术的精细表面的柔和成像,以及实现超快速成像的无源反馈接触模式AFM。高频力调制用于激发弹性常数为0.1 N m?〜(-1)的高柔度悬臂力传感器在MHz范围内的共振模式。高阶模式用作调制系统的刚性系统。尖端样品距离和1nm的振动幅度足以克服粘附相互作用。软悬臂为振动尖端提供了受力控制的支撑,可进行高速间歇接触力显微镜检查,而无需对悬臂弯曲进行反馈控制。使用这种技术,我们能够对柔软的聚合物表面成像,并完全抑制了在接触AFM中通常观察到的波纹磨损图案的形成。
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