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Low-temperature annealing regulates magneto-acoustic coupling for enhanced FeCoSiB/Ti SAW magnetic field sensor performance. [PDF]
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Radiative heat transfer at the nanoscale
Nature Photonics, 2009We give a concise introduction into the radiative heat transfer at the nanoscale discussing the contribution of propagating, frustrated and coupled surface modes [1]. Especially, the latter contribution results in a heat flux, which can exceed the heat flux between two black bodies by several orders of magnitude for distances in the nanometer ...
Emmanuel Rousseau +2 more
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Heat Transfer at the Nanoscale: Evaporation of Nanodroplets
Physical Review Letters, 2008We demonstrate using molecular dynamics simulations of the Lennard-Jones fluid that the evaporation process of nanodroplets at the nanoscale is limited by the heat transfer. The temperature is continuous at the liquid-vapor interface if the liquid/vapor density ratio is small (of the order of 10) and discontinuous otherwise.
Robert, Hołyst, Marek, Litniewski
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Microscale and Nanoscale Heat Transfer
2008Preface Introduction to Microscale Heat Transfer Microscale Heat Transfer: A Recent Avenue in Energy Transport State of the Art: Some Introductory Remarks Overview of Microscale Transport Phenomena Discussions on Size-Effect Behavior Fundamental Approach for Microscale Heat Transfer Introduction to Engineering Applications of Microscale Heat Transfer ...
C. B. Sobhan, G. P. Peterson
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Microscale and Nanoscale Heat Transfer
2016Microscale and Nanoscale Heat Transfer: Analysis, Design, and Applications features contributions from prominent researchers in the field of micro- and nanoscale heat transfer and associated technologies and offers a complete understanding of thermal transport in nano-materials and devices.
Rebay, M., Kakaç, S., Cotta, R.M.
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Micro/Nanoscale Heat Transfer: Interfacial Effects Dominate the Heat Transfer
ASME 2012 Third International Conference on Micro/Nanoscale Heat and Mass Transfer, 2012This paper describes the effects of size on heat conduction in nanofilms, convective heat transfer in micro/nanochannels, and near-field radiation in nanogaps. As the size is reduced, the ratio of the surface area to the volume increases; therefore, the relative importance of the interfacial effects also increases.
X. Zhang, Z. Y. Guo
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Interfacial Thermal Resistance in Nanoscale Heat Transfer
Volume 10: Heat Transfer, Fluid Flows, and Thermal Systems, Parts A, B, and C, 2008We investigate nanoscale thermal transport across a solid-fluid interface using molecular dynamics simulations. Cooler fluid argon (Ar) is placed between two heated iron (Fe) walls, thereby imposing a temperature gradient within the system. Fluid-fluid and solid-fluid interactions are modeled with Lennard-Jones potential parameters, while Embedded Atom
Ganesh Balasubramanian +2 more
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Introduction to heat transfer at nanoscale
2015Heat can be transferred from hot to cold areas by various carriers. In particular, heat conduction is mediated by vibrations and electrons, and thermal radiation by photons. This chapter recapitulates various ways to account for the modification of the heat carrier properties at the nanoscale, when either Fourier's law of heat diffusion is not valid or
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Microscale and Nanoscale Heat Transfer
2006Part I: Basic Concepts.- Laws of Macroscopic Heat Transfer and Their Limits.- Transport in Dilute Media.- Electrons and Phonons.- Introduction to Radiative Transfer.- Part II: Models and Numerical Methods.- Solution of the Boltzmann Equation for Phonon Transport.- Radiative Transfer on Short Length Scales.- Monte Carlo Method.- Molecular Dynamics ...
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