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(a) Optomechanical crystal tightly confined mechanical and optical resonances at the same physical location. This is achieved using photonic crystals to confine light and acoustic bandgap structure to confine mechanical vibrations (Meenehan et al., 2014). (b) Basic setup of optical tweezer (Ashkin et al., 1986) incoming spatially filtered laser beam focused using a microscope on a particle in a liquid. The focused beam undergoes reflections R1 and R2 and refraction by the sphere, resulting in a net upward force FA on the particle.

(a) Optomechanical crystal tightly confined mechanical and optical resonanc...

in Optical MEMS (Microspheres and Ring Resonators): Overview of Recent Progress > MEMS Applications in Electronics and Engineering
Published: March 2023
FIG. 7.25 (a) Optomechanical crystal tightly confined mechanical and optical resonances at the same physical location. This is achieved using photonic crystals to confine light and acoustic bandgap structure to confine mechanical vibrations ( Meenehan et al., 2014 ). (b) Basic setup More about this image found in (a) Optomechanical crystal tightly confined mechanical and optical resonanc...
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The working mechanism of a PV cell (Electrical A2Z).

The working mechanism of a PV cell ( Electrical A2Z ).

in Frontiers of Photovoltaic Systems for Smart City > Toward Better Photovoltaic SystemsDesign, Simulation, Optimization, Analysis, and Operations
Published: March 2023
FIG. 7.3 The working mechanism of a PV cell ( Electrical A2Z ). More about this image found in The working mechanism of a PV cell ( Electrical A2Z ).
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Schematic for (a) and (b) Peierls-like mechanism (Van Smaalen, 2005): (a) metallic phase and (b) insulating phase and (c) and (d) Mott-like mechanism (Imada et al., 1998): (c) metallic phase and (d) insulating phase.

Schematic for (a) and (b) Peierls-like mechanism ( Van Smaalen, 2005 ): (a)...

in Strain Engineering of Metal Insulator Transition in VO2 > Strain Engineering in Functional Materials and Devices
Published: March 2023
FIG. 4.3 Schematic for (a) and (b) Peierls-like mechanism ( Van Smaalen, 2005 ): (a) metallic phase and (b) insulating phase and (c) and (d) Mott-like mechanism ( Imada et al., 1998 ): (c) metallic phase and (d) insulating phase. More about this image found in Schematic for (a) and (b) Peierls-like mechanism ( Van Smaalen, 2005 ): (a)...
Book Chapter
Book cover for MEMS Applications in Electronics and Engineering

Mechanics of Materials Considerations in MEMS-Based Medical Devices

Series: AIPP Books, Principles
Published: March 2023
10.1063/9780735424395_005
EISBN: 978-0-7354-2439-5
ISBN: 978-0-7354-2436-4
...Bhattacharyya, S. and Kumar, A., “Mechanics of materials considerations in MEMS-based medical devices,” in MEMS Applications in Electronics and Engineering, edited by A. K. Basu, A. Basu, S. Ghosh, and S. Bhattacharya (AIP Publishing, Melville, New York, 2023), pp. 5-1–5-26. Introduction...
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Sensing mechanism through cantilever platform.

Sensing mechanism through cantilever platform. Reprinted with permission...

in Recent Progress in Cantilever-Based Sensors: An Overview of Application and Fabrication Techniques > MEMS Applications in Electronics and Engineering
Published: March 2023
FIG. 3.1 Sensing mechanism through cantilever platform. Reprinted with permission from Alvarez and Lechuga, Analyst 135 , 827–836 ( 2010 ). Copyright 2010 Royal Society of Chemistry. More about this image found in Sensing mechanism through cantilever platform. Reprinted with permission...
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An illustration of the working mechanism of four fundamental TENG modes: (a) contact mode, (b) sliding mode, (c) single-electrode mode, and (d) freestanding triboelectric layer mode.

An illustration of the working mechanism of four fundamental TENG modes: (a...

in MEMS-Based Energy Harvesting Devices: Overview of Recent Progress > MEMS Applications in Electronics and Engineering
Published: March 2023
FIG. 9.11 An illustration of the working mechanism of four fundamental TENG modes: (a) contact mode, (b) sliding mode, (c) single-electrode mode, and (d) freestanding triboelectric layer mode. More about this image found in An illustration of the working mechanism of four fundamental TENG modes: (a...
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PASCO Scientific Photogate Timer (see: https://www.pasco.com/products/lab-apparatus/mechanics/timers/me-9403).

PASCO Scientific Photogate Timer (see: https://www.pasco.com/products/lab...

in Using Sensors and Digital Data Collection/Analysis Technologies in K–12 Physics Education Under the STEM Perspective > The International Handbook of Physics Education Research: Teaching Physics
Published: March 2023
FIG. 6.6 PASCO Scientific Photogate Timer (see: https://www.pasco.com/products/lab-apparatus/mechanics/timers/me-9403 ). More about this image found in PASCO Scientific Photogate Timer (see: https://www.pasco.com/products/lab...
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Migration mechanism of the tetrahedral vacancy β-Ga2O3. The vacancy on the tetrahedral site is metastable: a more favorable configuration is formed by moving a neighboring substitutional GaI atom to an interstitial site with octahedral coordination (VGaib).

Migration mechanism of the tetrahedral vacancy β-Ga2O3...

in Defects in β-Ga2O3: Theory and Microscopic Studies > Ultrawide Bandgap β-Ga2O3 SemiconductorTheory and Applications
Published: February 2023
FIG. 5.6 Migration mechanism of the tetrahedral vacancy β-Ga2O3. The vacancy on the tetrahedral site is metastable: a more favorable configuration is formed by moving a neighboring substitutional GaI atom to an interstitial site with octahedral coordination More about this image found in Migration mechanism of the tetrahedral vacancy β-Ga2O3...
Images
(a) 2-DEG mobility as a function of scattering mechanisms and (b) comparison between experimentally measured and calculated 2-DEG mobility for a similar heterostructure device. Here, n2D is 2-DEG density and d is spacer thickness.

(a) 2-DEG mobility as a function of scattering mechanisms and (b) compariso...

in Electron Transport in β-Ga2O3 from First-Principles > Ultrawide Bandgap β-Ga2O3 SemiconductorTheory and Applications
Published: February 2023
FIG. 7.4 (a) 2-DEG mobility as a function of scattering mechanisms and (b) comparison between experimentally measured and calculated 2-DEG mobility for a similar heterostructure device. Here, n2D is 2-DEG density and d is spacer thickness. Reproduced More about this image found in (a) 2-DEG mobility as a function of scattering mechanisms and (b) compariso...
Book Chapter

Reliability Analysis of Photovoltaic Systems

Series: AIPP Books, Principles
Published: March 2023
10.1063/9780735425613_005
EISBN: 978-0-7354-2561-3
ISBN: 978-0-7354-2560-6
... network as an apparent reverse power flow can increase the voltage in the distribution feeders, triggering the protection mechanisms installed on solar inverters and leading to the shutdown of PV power generation. This can cause sudden changes in network power flow and voltage. Thus, reverse power flow...
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Book Chapter

Monitoring, Fault Detection and Operations of Photovoltaic Systems

Series: AIPP Books, Principles
Published: March 2023
10.1063/9780735425613_006
EISBN: 978-0-7354-2561-3
ISBN: 978-0-7354-2560-6
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Book Chapter

Quantum Dots-Based Solar Cells for Potential Application

Series: AIPP Books, Methods
Published: March 2023
10.1063/9780735425743_006
EISBN: 978-0-7354-2574-3
ISBN: 978-0-7354-2572-9
... methods for the evaluation of nanofluid stability, and different mechanisms and ways for enhancing nanofluid stability. Meanwhile, they have displayed a wide spectrum of nanofluids future applications like biomedical, mechanical and energy applications. In addition, Markovic et al. (2012) have...
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Book Chapter

The Emergence of Quantum Mechanics

Series: AIPP Books, Principles
Published: December 2022
10.1063/9780735425668_001
EISBN: 978-0-7354-2566-8
ISBN: 978-0-7354-2564-4
... mechanics. The aim of this book is to teach you spectroscopy, and in so doing, quantum mechanics. Spectroscopy is the study of light interacting with matter through absorption, emission, and scattering. Learning spectroscopy will lead to an understanding of the main features of quantum theory. This book...
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(a) Optomechanical effect with gradient force due to evanescent field coupled to mechanical vibration, studied in a piezoelectric AlN optical waveguide (Dong et al., 2013b; and Xiong et al., 2013).

(a) Optomechanical effect with gradient force due to evanescent field coupl...

in Optical MEMS (Microspheres and Ring Resonators): Overview of Recent Progress > MEMS Applications in Electronics and Engineering
Published: March 2023
FIG. 7.20 (a) Optomechanical effect with gradient force due to evanescent field coupled to mechanical vibration, studied in a piezoelectric AlN optical waveguide ( Dong et al., 2013b ; and Xiong et al., 2013 ). More about this image found in (a) Optomechanical effect with gradient force due to evanescent field coupl...
Book Chapter

Strain Engineering of Metal Insulator Transition in VO2

Series: AIPP Books, Principles
Published: March 2023
10.1063/9780735425590_004
EISBN: 978-0-7354-2559-0
ISBN: 978-0-7354-2556-9
... band structure and charge carrier mobility and hence the electrical resistance can be tuned by hydrostatic pressure and lattice strain. Mechanisms based on piezoresistance and/or stress-induced phase transition have been considered for understanding the stress effect on the electrical properties...
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Circuit modeling of the four different DC-TENG modes: (a) phase coupled DC-TENG, (b) mechanical rectifier-based DC-TENG, (c) electrostatic breakdown DC-TENG, and (d) metal-semiconductor DC-TENG.

Circuit modeling of the four different DC-TENG modes: (a) phase coupled DC-...

in MEMS-Based Energy Harvesting Devices: Overview of Recent Progress > MEMS Applications in Electronics and Engineering
Published: March 2023
FIG. 9.12 Circuit modeling of the four different DC-TENG modes: (a) phase coupled DC-TENG, (b) mechanical rectifier-based DC-TENG, (c) electrostatic breakdown DC-TENG, and (d) metal-semiconductor DC-TENG. More about this image found in Circuit modeling of the four different DC-TENG modes: (a) phase coupled DC-...
Book Chapter
Book cover for MEMS Applications in Electronics and Engineering

Index

Series: AIPP Books, Principles
Published: March 2023
10.1063/9780735424395_index
EISBN: 978-0-7354-2439-5
ISBN: 978-0-7354-2436-4
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Book
Book cover for MEMS Applications in Electronics and Engineering

MEMS Applications in Electronics and Engineering

Series: AIPP Books, Principles
Published: March 2023
10.1063/9780735424395
EISBN: 978-0-7354-2439-5
ISBN: 978-0-7354-2436-4
Open the PDF for MEMS Applications in Electronics and Engineering in another window
Book Chapter
Book cover for MEMS Applications in Electronics and Engineering

Front Matter

Series: AIPP Books, Principles
Published: March 2023
10.1063/9780735424395_frontmatter
EISBN: 978-0-7354-2439-5
ISBN: 978-0-7354-2436-4
... University of Agriculture and Technology, Pantnagar, Uttarakhand Shantanu Bhattacharya Department of Mechanical Engineering, Indian Institute of Technology, Kanpur 208016, India Suparno Bhattacharyya International Center for Automotive Research, Clemson University, Clemson, South Carolina 29634, USA...
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Book Chapter
Book cover for MEMS Applications in Electronics and Engineering

Introduction to MEMS Applications in Electronics and Engineering

Series: AIPP Books, Principles
Published: March 2023
10.1063/9780735424395_001
EISBN: 978-0-7354-2439-5
ISBN: 978-0-7354-2436-4
...–1-4. The advent of microelectromechanical systems, commonly abbreviated as MEMS, has brought in the advantages of interfacing mechanical components with electronic circuits to realize a complete overall system ( Basu et al., 2020a , 2020b ). The three-dimensional (3D) nature...
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