Control of micro-cantilever using passive optical feedback for force microscopy

Fu H.; Liu Y.; Chen J.; Cao G.

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Control of micro-cantilever using passive optical feedback for force microscopy

机译：使用被动光学反馈进行力显微镜控制微悬臂梁

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We demonstrate the use of bolometric force backaction in lever-based miniature Fabry-Pérot (FP) optical cavity for micro-cantilever control. In our experiment, low finesse FP microcavity is formed by polished fiber end and mass loaded micro-cantilever. We show that the dynamics of micro-cantilever can be deeply modified when photon intensity stored in the FP microcavity is sufficiently large. For blue microcavity detuning, we confirm this control mechanism can optimize the dynamics of micro-cantilever and dramatically reduce its Brownian motion amplitude without deteriorating force resolution. This effective and low-cost control method can be simply realized in most optical detection force microscopes.

机译：我们演示了在基于杠杆的微型Fabry-Pérot（FP）光学腔体中使用辐射热反作用力进行微悬臂梁控制。在我们的实验中，低精细的FP微腔是由抛光的光纤末端和大量加载的微悬臂梁形成的。我们表明，当存储在FP微腔中的光子强度足够大时，微悬臂梁的动力学可以被深深地修改。对于蓝色微腔失谐，我们确认此控制机制可以优化微悬臂梁的动力学，并显着降低其布朗运动幅度，而不会降低力的分辨率。这种有效且低成本的控制方法可以在大多数光学检测力显微镜中轻松实现。

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《Sensors and Actuators, A. Physical》 |2010年第2期|共4页
作者
Fu H.; Liu Y.; Chen J.; Cao G.;
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原文格式 PDF
正文语种 eng
中图分类 TP212.1;
关键词
Bolometric backaction; Force microscopy; Lever-based Fabry-Pérot cavity; Micro-cantilever; Passive optical feedback;

机译：容积比反作用;力显微镜;基于杠杆的Fabry-Pérot腔;微悬臂梁;无源光学反馈;

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专利

1. Control of micro-cantilever using passive optical feedback for force microscopy [J] . Fu H., Liu Y., Chen J., Sensors and Actuators, A. Physical . 2010,第2期

机译：使用被动光学反馈进行力显微镜控制微悬臂梁
2. Calibration of measurement sensitivities of multiple micro-cantilever dynamic modes in atomic force microscopy using a contact detection method [J] . Liu Zhen, Jeong Younkoo, Menq Chia-Hsiang Review of Scientific Instruments . 2013,第2期

机译：使用接触检测方法校准原子力显微镜中多个微悬臂动力学模式的测量灵敏度
3. Selective photothermal self-excitation of mechanical modes of a micro-cantilever for force microscopy [J] . Hao Fu, Cunding Liu, Yong Liu, Applied Physics Letters . 2011,第17期

机译：用于力显微镜的微悬臂梁的机械模式的选择性光热自激
4. Fabrication of optical micro-cantilever consisting of channel waveguide for scanning near-field optical microscopy controlled by atomic force [C] . Niwa, T., Kato, . 1999

机译：由通道波导组成的光学微悬臂梁的制造，用于由原子力控制的扫描近场光学显微镜
5. Reconstruction and Control of Tip Position and Dynamic Sensing of Interaction Force for Micro-Cantilever to Enable High Speed and High Resolution Dynamic Atomic Force Microscopy. [D] . Liu, Zhen. 2017

机译：微悬臂的尖端位置的重构和控制以及相互作用力的动态传感，以实现高速和高分辨率的动态原子力显微镜。
6. Quantitative reconstruction of time-varying 3D cell forces with traction force optical coherence microscopy [O] . Jeffrey A. Mulligan, Xinzeng Feng, Steven G. Adie -1

机译：牵引力光学相干显微镜定量重建时变3D细胞力
7. Comparison between Atomic Force Microscopy and Force Feedback Microscopy static force curves [O] . Costa, Luca, Rodrigues, Mario S., Carpentier, Simon, 2013

机译：原子力显微镜与力反馈显微镜的比较静力曲线

Control of micro-cantilever using passive optical feedback for force microscopy

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