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Oscillations :theory and applications in AFM /

"Version: 20240901"--Title page verso.Includes bibliographical references.part I. Linear theory and applications in AFM. 1. Introduction -- 1.1. Oscillations, linear theory, and applications in AFM -- 1.2. Oscillations in general2. Model description -- 2.1. Continuous and point-mass model descriptions of the cantilever-tip system -- 2.2. Simple harmonic motion -- 2.3. Damped oscillations3. Energy -- 3.1. Relationship between stored energy and kinetic energy -- 3.2. Distance independent or constant forces -- 3.3. Q factor and dissipation4. The driven oscillator -- 4.1. The linear form of the driven oscillator -- 4.2. Summary -- 4.3. The driven oscillator and resonance with a driving force -- 4.4. Other derivations of Q and energy considerations in the linear model -- 4.5. Another way of looking at the drive -- 4.6. Summary of the chapterpart II. Nonlinear theory and applications in AFM. 5. Nonlinearities and the driven oscillator -- 5.1. Linear differential equations -- 5.2. Nonlinear differential equation of motion for the driven oscillator -- 5.3. The linear response -- 5.4. The nonlinear response and the coexistence of several stable states of oscillation -- 5.5. The nonlinear response (attractive case) -- 5.6. The nonlinear response (repulsive case) -- 5.7. The nonlinear response (attractive/repulsive case) -- 5.8. Summary6. The cantilever and tip-sample system in AFM -- 6.1. Forces -- 6.2. Conservative and dissipative terms: the virial and energy dissipation7. Expanding the expressions of energy dissipation and virial -- 7.1. Virial, energy dissipation, and harmonics -- 7.2. The virial and energy dissipation and the frequency shift8. Nonlinear amplitude decay, frequency shift and transfer function -- 8.1. Frequency shift and virial at arbitrary drive frequencies -- 8.2. Bimodal.Full-text restricted to subscribers or individual document purchasers.Oscillations, written as a reference book for engineers and physicists, this book explores the relation between dynamic atomic force microscopy (AFM) and oscillation theory. Currently, available books on oscillation theory are only partially suitable to study atomic force microscopy. For this reason, our book, a first of its kind, provides the general and foundational concepts of oscillations with a focus on AFM and implementations. Oscillations are present in almost every field of physics and engineering and can be found in a plethora of fields from economics to biology. The theory of oscillations is also fundamental in the field of AFM - imaging at the nanoscale level. There have been many novel developments in AFM contributing to areas in metrology, rheology, mechanics of cells and biomedicine and this book serves as a good general introduction to understand the mechanics of the instrument.Undergraduate and graduate students studying oscillations and AFM.Also available in print.Mode of access: World Wide Web.System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.Tuza Olukan is a Postdoctoral Research Fellow at UiT, Norway. He holds a doctorate degree in Material Science and Nanotechnology Engineering under the MIT/MI Collaborative Program at the Khalifa University. His scientific interests rest on the deployment of cutting-edge solutions in addressing scientific and technological challenges with an emphasis on low-cost, sustainable, and, locally sourced materials and resources. His current research effort is geared towards adopting multidisciplinary strategies in the decarbonization, decentralization, and digitalization of the electricity sector especially in remote regions of the world and the Global South countries in general. Sergio Santos is an author in science and law. When the theme for the book was first conceived, he was a Postdoctoral Research Fellow at UiT (2019-2022), Norway. S Santos has over a decade of experience in nanoscale science and technology. He is a specialist in dynamic AFM methods. He got his PhD from Leeds University in 2011 on the topic of AFM imaging of macromolecules on surfaces in air. Lamiaa Elsherbiny is a PhD student in the Laboratory of Energy of Nanoscience (LENS) group in Khalifa University. She received her Bachelor in sustainable and renewable energy engineering at University of Sharjah. Her work at UoS consisted of modelling the optical properties of Dye Sensitized Solar Cells (DSSC). She received her master's degree in mechanical engineering at Khalifa University studying the forecasting performance of different machine learning algorithms of photovoltaic generation in Abu Dhabi. She is currently pursuing her PhD. degree in engineering by studying the impact of quantifying interaction forces on tuning the properties of surfaces using experimental and analytical methods. Matteo Chiesa is the head of the LENS (Laboratory for Nano Science) at Khalifa University. He is also professor with the Arctic University of Norway UIT. His research focuses on the creation and implementation of technologies necessary to adapt the current energy system into a more sustainable, competitive and secure one, in particular the use of properly designed nano in solar energy systems. Prof. Chiesa's 15-years-long research efforts have been pivotal for Masdar in achieving photovoltaic projects promising electricity at record-low prices. With PPA (power purchase agreement) bids reaching as low as 1.35c/kWh, this surge of ultra-cheap installations marks a major milestone for PV technologies. In terms of scholarly contribution, Prof. Chiesa has built a dynamic team that is recognized by his community for consistently attempting the enhancement of the AFM (Atomic Force Microscopy) capability.Title from PDF title page (viewed on October 3, 2024).

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Call Number
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Publisher
: .,
Collation
1 online resource (various pagings) :illustrations (some color).
Language
English
ISBN/ISSN
9780750358095
Classification
531/.11
Content Type
-
Media Type
-
Carrier Type
-
Edition
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Subject(s)
Nanotechnology.
TECHNOLOGY & ENGINEERING / Nanotechnology & MEMS.
Oscillations.
Atomic force microscopy.
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