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Applied chemical analysis --- Gravimetric and volumetric analysis --- Thermal analysis --- Differential thermal analysis --- Differential thermal curves --- Chemistry, Analytic --- Analytical chemistry

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"The book provides a useful introduction to this technique and a helpful guide for scientists and engineers working in this field. It concludes with a detailed theoretical treatment of the propagation of thermal waves, which is presented as a basis for various applications, e.g., integrated devices, MOS structures, solar cells and solar molecules."--Jacket.

Electronic apparatus and appliances --- Semiconductors --- Thermography --- Testing --- Thermal properties

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"This book covers mathematical calculation, prediction, and application methods for conductive, radiative, and convective heat transfer in electronic equipment. It provides complete mathematical derivations, supplements formulae with design plots, and offers exercise solutions and lecture aids including PDFs and downloadable Mathcad worksheets. The author covers topics such as methods for multi-surface radiation exchange, conductive heat transfer in electronics, and finite element theory with a variational calculus method explained for heat conduction. Offering mathematical descriptions of large thermal network problem formulation, he discusses theory of comprehensive thermal spreading resistance, and includes steady-state and time-dependent problems"-- "This book covers mathematical calculation, prediction, and application methods for conductive, radiative, and convective heat transfer in electronic equipment. It provides complete mathematical derivations, supplements formulae with design plots, and offers exercise solutions and lecture aids. These include landscape-viewable PDF files and downloadable Mathcad worksheet files for text application. The author covers topics such as methods for multi-surface radiation exchange, conductive heat transfer in electronics, and finite element theory with a variational calculus method explained for heat conduction. Offering mathematical descriptions of large thermal network problem formulation, he discusses theory of comprehensive thermal spreading resistance (with design curves and applications), and includes steady-state and time-dependent problems"--

Cooling --- Electronic apparatus and appliances --- Thermal properties --- Mathematical models. --- Mathematics. --- Electronic devices --- Electronics --- Physical instruments --- Scientific apparatus and instruments --- Electronic instruments --- Cooling&delete& --- Mathematics --- Thermal properties&delete& --- Mathematical models --- Apparatus and appliances

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Device and Circuit Cryogenic Operation for Low Temperature Electronics is a first in reviewing the performance and physical mechanisms of advanced devices and circuits at cryogenic temperatures that can be used for many applications. The first two chapters cover bulk silicon and SOI MOSFETs. The electronic transport in the inversion layer, the influence of impurity freeze-out, the special electrical properties of SOI structures, the device reliability and the interest of a low temperature operation for the ultimate integration of silicon down to nanometer dimensions are described. The next two chapters deal with Silicon-Germanium and III-V Heterojunction Bipolar Transistors, as well as III-V High Electron Mobility Transistors (HEMT). The basic physics of the SiGe HBT and its unique cryogenic capabilities, the optimization of such bipolar devices, and the performance of SiGe HBT BiCMOS technology at liquid nitrogen temperature are examined. The physical effects in III-V semiconductors at low temperature, the HEMT and HBT static, high frequency and noise properties, and the comparison of various cooled III-V devices are also addressed. The next chapter treats quantum effect devices made of silicon materials. The major quantum effects at low temperature, quantum wires, quantum dots as well as single electron devices and applications are investigated. The last chapter overviews the performances of cryogenic circuits and their applications. The low temperature properties and performance of inverters, multipliers, adders, operational amplifiers, memories, microprocessors, imaging devices, circuits and systems, sensors and read-out circuits are analyzed. Device and Circuit Cryogenic Operation for Low Temperature Electronics is useful for researchers, engineers, Ph.D. and M.S. students working in the field of advanced electron devices and circuits, new semiconductor materials, and low temperature electronics and physics.

Cryoelectronics --- Electronic apparatus and appliances --- -Electronic devices --- Electronics --- Physical instruments --- Scientific apparatus and instruments --- Electronic instruments --- Cryogenic electronics --- Cryotronics --- Low temperature engineering --- Superconductivity --- Thermal properties --- Apparatus and appliances --- -Thermal properties --- Electronics. --- Microelectronics. --- Electronic circuits. --- Electrical engineering. --- Materials science. --- Optical materials. --- Electronic materials. --- Electronics and Microelectronics, Instrumentation. --- Circuits and Systems. --- Electrical Engineering. --- Characterization and Evaluation of Materials. --- Optical and Electronic Materials. --- Electronic materials --- Optics --- Materials --- Material science --- Physical sciences --- Electric engineering --- Engineering --- Electron-tube circuits --- Electric circuits --- Electron tubes --- Microminiature electronic equipment --- Microminiaturization (Electronics) --- Microtechnology --- Semiconductors --- Miniature electronic equipment --- Electrical engineering

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Heat --- -Mass transfer --- Mass transport (Physics) --- Thermodynamics --- Transport theory --- Electromagnetic waves --- Physics --- Cold --- Combustion --- Fire --- Temperature --- Thermochemistry --- Convection --- Mass transfer --- Convection of heat --- Differential equations. --- Mass transfer. --- Transmission. --- Transfert de chaleur --- Boundary layer --- Integral equations --- Laminar boundary layer --- Laminar flow --- Momentum transfer --- Pipes tubes --- Reynolds number --- Stream flow --- Thermal boundary layer --- Turbulent boundary layer --- Turbulent flow --- Viscosity