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This book presents a collection of 13 original research articles that focus on the science of light–matter interaction. This area of science has been led to some the greatest accomplishments of the past 100 years, with the discovery of materials that perform useful operations by collecting light or generating light from an outside stimulus. These materials are at the center of a multitude of technologies that have permeated our daily life; every day we rely on quantum well lasers for telecommunication, organic light emitting diodes for our displays, complementary metal–oxide–semiconductors for our camera detectors, and of course a plethora of new photovoltaic cells that harvest sunlight to satisfy our energy needs. In this book, top-rated researchers present their latest findings in the field of nano-particles, plasmonics, semi-conductors, magneto-optics, and holography.

Research & information: general --- Technology: general issues --- faraday rotator material --- optical isolator --- transparent ceramics --- photopolymerizable --- thiol-ene network --- scratch-healing --- transparent --- dyeing --- unsaturated polyester resin --- azobenzene --- hologram --- aqueous dispersion --- plasmonic nanoparticles --- nonlinear acousto-optics --- nanofluids --- ultrasonic sensors --- silicon photonics --- optical waveguide --- smectic A liquid crystal (SALC) --- stimulated light scattering (SLS) --- holography --- photochromism --- diarylethenes --- refractive index --- CGH --- magnetic-optical bi-functional materials --- hydrothermal process --- down-conversion luminescence --- Na3FeF6:Tb3+ --- magnetic–luminescent structure --- hybrid system --- ternary quantum dots --- magnetic nanoparticles --- iron oxide --- calcium carbonate microspheres --- sensor --- nanoparticles --- silica shells --- metal nanoparticles --- gold-silver nanoshells --- core-shell nanoparticles --- magneto-optics --- mcd --- faraday rotation --- figure of merit --- polarization --- oxygen plasma treatment --- photopolymer --- temperature --- CTE --- thermal degradation --- hexagonal boron nitride --- photoluminescence --- cerium --- anti-counterfeiting --- crystals --- n/a --- magnetic-luminescent structure

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The recent development of various application systems and platforms, such as 5G, B5G, 6G, and IoT, is based on the advancement of CMOS integrated circuit (IC) technology that enables them to implement high-performance chipsets. In addition to development in the traditional fields of analog and digital integrated circuits, the development of CMOS IC design and application in high-power and high-frequency operations, which was previously thought to be possible only with compound semiconductor technology, is a core technology that drives rapid industrial development. This book aims to highlight advances in all aspects of CMOS integrated circuit design and applications without discriminating between different operating frequencies, output powers, and the analog/digital domains. Specific topics in the book include: Next-generation CMOS circuit design and application; CMOS RF/microwave/millimeter-wave/terahertz-wave integrated circuits and systems; CMOS integrated circuits specially used for wireless or wired systems and applications such as converters, sensors, interfaces, frequency synthesizers/generators/rectifiers, and so on; Algorithm and signal-processing methods to improve the performance of CMOS circuits and systems.

Technology: general issues --- History of engineering & technology --- spin memristor --- mask operation --- memristor switch --- memristor crossbar --- image processing --- CMOS --- voltage-controlled oscillator --- switched-biasing --- flicker noise --- phase noise --- current source --- figure-of-merit --- pixel-level ADC --- current-input ADC --- readout circuit --- microbolometer --- high SNR --- wide dynamic range --- current-reuse --- injection-locked frequency divider --- radar sensor --- wideband --- RF receiver --- blocker --- second-order intermodulation (IM2) --- orthogonal frequency division modulation (OFDM) --- MedRadio --- medical implanted communication service (MICS) --- biomedical device --- biosensors --- LC-VCO --- current-shaping --- 90 nm --- current tail --- varactor --- LC tank --- on-wafer --- vibration energy harvester --- power management circuit --- CMOS rectifier --- dynamic threshold cancellation technique --- high power conversion efficiency --- CMOS circuit --- analog system --- signal processing --- learning algorithm --- artificial neural network --- freeware --- open science --- analog microelectronics design --- long channel transistors --- short channel transistors --- integrated circuit design --- CMOS design --- VLSI --- higher education --- educational innovation --- integrated circuit layout --- complex thinking --- CMOS detector --- concurrent-mode --- differential detector IC --- imaging SNR --- integrated folded-dipole antenna --- sub-terahertz imaging --- voltage responsivity

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

The recent development of various application systems and platforms, such as 5G, B5G, 6G, and IoT, is based on the advancement of CMOS integrated circuit (IC) technology that enables them to implement high-performance chipsets. In addition to development in the traditional fields of analog and digital integrated circuits, the development of CMOS IC design and application in high-power and high-frequency operations, which was previously thought to be possible only with compound semiconductor technology, is a core technology that drives rapid industrial development. This book aims to highlight advances in all aspects of CMOS integrated circuit design and applications without discriminating between different operating frequencies, output powers, and the analog/digital domains. Specific topics in the book include: Next-generation CMOS circuit design and application; CMOS RF/microwave/millimeter-wave/terahertz-wave integrated circuits and systems; CMOS integrated circuits specially used for wireless or wired systems and applications such as converters, sensors, interfaces, frequency synthesizers/generators/rectifiers, and so on; Algorithm and signal-processing methods to improve the performance of CMOS circuits and systems.

spin memristor --- mask operation --- memristor switch --- memristor crossbar --- image processing --- CMOS --- voltage-controlled oscillator --- switched-biasing --- flicker noise --- phase noise --- current source --- figure-of-merit --- pixel-level ADC --- current-input ADC --- readout circuit --- microbolometer --- high SNR --- wide dynamic range --- current-reuse --- injection-locked frequency divider --- radar sensor --- wideband --- RF receiver --- blocker --- second-order intermodulation (IM2) --- orthogonal frequency division modulation (OFDM) --- MedRadio --- medical implanted communication service (MICS) --- biomedical device --- biosensors --- LC-VCO --- current-shaping --- 90 nm --- current tail --- varactor --- LC tank --- on-wafer --- vibration energy harvester --- power management circuit --- CMOS rectifier --- dynamic threshold cancellation technique --- high power conversion efficiency --- CMOS circuit --- analog system --- signal processing --- learning algorithm --- artificial neural network --- freeware --- open science --- analog microelectronics design --- long channel transistors --- short channel transistors --- integrated circuit design --- CMOS design --- VLSI --- higher education --- educational innovation --- integrated circuit layout --- complex thinking --- CMOS detector --- concurrent-mode --- differential detector IC --- imaging SNR --- integrated folded-dipole antenna --- sub-terahertz imaging --- voltage responsivity

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

This book presents a collection of 13 original research articles that focus on the science of light–matter interaction. This area of science has been led to some the greatest accomplishments of the past 100 years, with the discovery of materials that perform useful operations by collecting light or generating light from an outside stimulus. These materials are at the center of a multitude of technologies that have permeated our daily life; every day we rely on quantum well lasers for telecommunication, organic light emitting diodes for our displays, complementary metal–oxide–semiconductors for our camera detectors, and of course a plethora of new photovoltaic cells that harvest sunlight to satisfy our energy needs. In this book, top-rated researchers present their latest findings in the field of nano-particles, plasmonics, semi-conductors, magneto-optics, and holography.

Research & information: general --- Technology: general issues --- faraday rotator material --- optical isolator --- transparent ceramics --- photopolymerizable --- thiol-ene network --- scratch-healing --- transparent --- dyeing --- unsaturated polyester resin --- azobenzene --- hologram --- aqueous dispersion --- plasmonic nanoparticles --- nonlinear acousto-optics --- nanofluids --- ultrasonic sensors --- silicon photonics --- optical waveguide --- smectic A liquid crystal (SALC) --- stimulated light scattering (SLS) --- holography --- photochromism --- diarylethenes --- refractive index --- CGH --- magnetic-optical bi-functional materials --- hydrothermal process --- down-conversion luminescence --- Na3FeF6:Tb3+ --- magnetic-luminescent structure --- hybrid system --- ternary quantum dots --- magnetic nanoparticles --- iron oxide --- calcium carbonate microspheres --- sensor --- nanoparticles --- silica shells --- metal nanoparticles --- gold-silver nanoshells --- core-shell nanoparticles --- magneto-optics --- mcd --- faraday rotation --- figure of merit --- polarization --- oxygen plasma treatment --- photopolymer --- temperature --- CTE --- thermal degradation --- hexagonal boron nitride --- photoluminescence --- cerium --- anti-counterfeiting --- crystals

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

The recent development of various application systems and platforms, such as 5G, B5G, 6G, and IoT, is based on the advancement of CMOS integrated circuit (IC) technology that enables them to implement high-performance chipsets. In addition to development in the traditional fields of analog and digital integrated circuits, the development of CMOS IC design and application in high-power and high-frequency operations, which was previously thought to be possible only with compound semiconductor technology, is a core technology that drives rapid industrial development. This book aims to highlight advances in all aspects of CMOS integrated circuit design and applications without discriminating between different operating frequencies, output powers, and the analog/digital domains. Specific topics in the book include: Next-generation CMOS circuit design and application; CMOS RF/microwave/millimeter-wave/terahertz-wave integrated circuits and systems; CMOS integrated circuits specially used for wireless or wired systems and applications such as converters, sensors, interfaces, frequency synthesizers/generators/rectifiers, and so on; Algorithm and signal-processing methods to improve the performance of CMOS circuits and systems.

Technology: general issues --- History of engineering & technology --- spin memristor --- mask operation --- memristor switch --- memristor crossbar --- image processing --- CMOS --- voltage-controlled oscillator --- switched-biasing --- flicker noise --- phase noise --- current source --- figure-of-merit --- pixel-level ADC --- current-input ADC --- readout circuit --- microbolometer --- high SNR --- wide dynamic range --- current-reuse --- injection-locked frequency divider --- radar sensor --- wideband --- RF receiver --- blocker --- second-order intermodulation (IM2) --- orthogonal frequency division modulation (OFDM) --- MedRadio --- medical implanted communication service (MICS) --- biomedical device --- biosensors --- LC-VCO --- current-shaping --- 90 nm --- current tail --- varactor --- LC tank --- on-wafer --- vibration energy harvester --- power management circuit --- CMOS rectifier --- dynamic threshold cancellation technique --- high power conversion efficiency --- CMOS circuit --- analog system --- signal processing --- learning algorithm --- artificial neural network --- freeware --- open science --- analog microelectronics design --- long channel transistors --- short channel transistors --- integrated circuit design --- CMOS design --- VLSI --- higher education --- educational innovation --- integrated circuit layout --- complex thinking --- CMOS detector --- concurrent-mode --- differential detector IC --- imaging SNR --- integrated folded-dipole antenna --- sub-terahertz imaging --- voltage responsivity