Single-Cycle-PLL Detection for Real-Time FM-AFM Applications

Schlecker, Benedikt; Ðukić, Maja; Erickson, Blake; Ortmanns, Maurits; Fantner, Georg E.; Anders, Jens

doi:10.1109/tbcas.2014.2307696

Cited by 8 publications

(4 citation statements)

References 22 publications

(44 reference statements)

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“…In the case of HS-AM-AFM, the measurement frequency and the resonance frequency are inherently linked and practically equal, whereas in HS-PORT, the measurement frequency can be chosen freely, provided it is sufficiently below the first resonance of the cantilever 27 . In addition, resonance based techniques require advanced electronics for single-cycle detection 28,29 . We measured the dynamic forces for different ratios of measurement frequency to resonance frequency ( Fig.…”

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confidence: 99%

High-speed photothermal off-resonance atomic force microscopy reveals assembly routes of centriolar scaffold protein SAS-6

et al. 2018

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The self-assembly of protein complexes is at the core of many fundamental biological processes, ranging from the polymerization of cytoskeletal elements, such as microtubules, to viral capsid formation and organelle assembly. To reach a comprehensive understanding of the underlying mechanisms of self-assembly, high spatial and temporal resolutions must be attained. This is complicated by the need to not interfere with the reaction during the measurement. As self-assemblies are often governed by weak interactions, they are especially difficult to monitor with high-speed atomic force microscopy (HS-AFM) due to the non-negligible tip-sample interaction forces involved in current methods. We have developed a HS-AFM technique, photothermal off-resonance tapping (PORT), which is gentle enough to monitor self-assembly reactions driven by weak interactions. We apply PORT to dissect the self-assembly reaction of SAS-6 proteins, which form a nine-fold radially symmetric ring-containing structure that seeds the formation of the centriole organelle. Our analysis reveals the kinetics of SAS-6 ring formation and demonstrates that distinct biogenesis routes can be followed to assemble a nine-fold symmetrical structure.

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confidence: 99%

High-speed photothermal off-resonance atomic force microscopy reveals assembly routes of centriolar scaffold protein SAS-6

et al. 2018

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“…Theoretical analysis and simulations on various closed-loop control schemes for fiber cantilever-based endoscopic scanners have been explained here [63]. Among the various scheme, phase-locked loops (PLLs) are the most prevalent control method utilized not just in fiber cantilever-based endoscopic scanners but also in other similar scanning systems such as fast steering mirror (FSM) systems [64], MEMS devices [65], and atomic force microscopy (AFM) [66]. PLLs controllers are commonly used for tracking and controlling amplitude-fixed periodic signals, such as sinusoidal signals.…”

Section: ) Closed-loop Feedback Controlmentioning

confidence: 99%

Optical-Mechanical Configuration of Imaging Operation for Endoscopic Scanner: A Review

Leong

Mokhtar²,

Zan

et al. 2021

IEEE Access

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Miniaturized endoscopic scanners have had a significant impact on high-resolution optical imaging. Technological advancements in micro-electromechanical systems and optical fiber technology have resulted in various optical-mechanical configurations designed to fulfill specific requirements. However, it is still challenging to provide comprehensive, undistorted images with high-resolution images of target samples. This paper reviews the optical imaging techniques utilized in cantilever-based endoscopic scanners by analyzing and comparing their key performances, pros and cons, and corresponding optical components needed to develop the system. The concept of multimodal imaging is then highlighted by discussing its principle and current status in endoscopic scanners. We also reviewed the scanning configurations concerning their mechanical components, general structures, and drive signals for different scanning patterns. The feedback control aspect in endoscopic scanners is then addressed, with a discussion of its role in mitigating undesired nonlinear vibration effects and a survey of current implementations. Finally, we discuss the current and potential applications of endoscopic scanners, artificial intelligence techniques in image reconstruction, and disease detection and provide recommendations on endoscopic scanner system design for future reference.

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“…The phase detector is commonly built by downconversion of the input signal by the reference oscillator, followed by low-pass filter to remove high-frequency mixing products. To achieve higher bandwidths up to the cantilever eigenfrequency, alternative phase detectors have been proposed recently [40][41][42].…”

Section: A Phase-locked Loopmentioning

confidence: 99%

Steady-state and transient behavior in dynamic atomic force microscopy

Wagner

2019

Journal of Applied Physics

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We discuss the influence of external forces on the motion of the tip in dynamic atomic force microscopy (AFM). First, a compact solution for the steady-state problem is derived employing a Fourier approach. Founding on this solution, we present an analytical framework to describe the transient behavior of the tip after perturbations of tip-sample forces and the excitation signal. The static and transient solutions are then combined to obtain the baseband response of the tip, i.e., the deflection signal demodulated with respect to the excitation. The baseband response generalizes the amplitude and phase response of the tip, and we use it to find explicit formulas describing the amplitude and phase modulation following the influence of external forces on the tip. Finally, we apply our results to obtain an accurate dynamic model of the amplitude controller and phase-locked loop (PLL) driving the cantilever in a frequency modulated AFM setup. A special emphasis is put on discussing the tip response in environments of high damping, such as ambient or liquid. arXiv:1810.04237v2 [cond-mat.mes-hall]

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Single-Cycle-PLL Detection for Real-Time FM-AFM Applications

Cited by 8 publications

References 22 publications

High-speed photothermal off-resonance atomic force microscopy reveals assembly routes of centriolar scaffold protein SAS-6

High-speed photothermal off-resonance atomic force microscopy reveals assembly routes of centriolar scaffold protein SAS-6

Optical-Mechanical Configuration of Imaging Operation for Endoscopic Scanner: A Review

Steady-state and transient behavior in dynamic atomic force microscopy

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