...] Torres , P. , Ziabari , A. , Torelló , A. , Bafaluy , J. , Camacho , J. , Cartoixà , X. , Shakouri , A. , and Alvarez , F. X. , 2018 , “ Emergence of Hydrodynamic Heat Transport in Semiconductors at the Nanoscale ,” Phys. Rev. Mater. , 2 , p...

... evidence for the Casimir limit at room temperature. More recent studies on ultrathin films and periodically porous thin films are exploring the possibility of phonon dispersion modifications in confined geometries and porous films. silicon phonon transport thermal conductivity nanoscale thin...

... [10] Gosselin , L. , and Bejan , A. , 2004 , “ Constructal Heat Trees at Micro and Nanoscales ,” J. Appl. Phys. , 96 , pp. 5852 – 5859 . 10.1063/1.1782278 [11] Daneshi , M. , Shirani , E. , and Salimpour , M. R. , 2012 , “ Constructal Nano-Scale Heat Trees Used...

... temperature nanoscale near field thermal radiation Nanoscale thermal radiation can be utilized to improve the performance of near-field thermophotovoltaic (TPV) devices, near-field scanning-tunneling thermal imaging systems, and noncontact thermal rectifiers [( 1 2 3 4 5 6 7 8 9...

...Alaeddin Malek; Zahra Kalateh Bojdi; Parisa Nuri Niled Golbarg In the present work, we investigate laser heating of nanoscale thin-films irradiated in three dimensions using the dual phase lag (DPL) model. A numerical solution based on mixed-collocation, finite difference method has been employed...

...Tengfei Luo; John R. Lloyd Ab initio molecular dynamics, which employs density functional theory, is used to study thermal energy transport phenomena in nanoscale structures. Thermal equilibration in multiple thin layer structures with thicknesses less than 1 nm per layer is simulated. Different...

... for modeling radiative properties was also examined. The agreement between the measurement and modeling results demonstrates the feasibility of quantitative tuning of the radiative properties by employing periodic micro/nanostructures. radiative transfer electromagnetic grating microscale nanoscale...

... contact, the JG asperity deformation model is used. 17 01 2007 13 02 2008 30 05 2008 contact resistance heat transfer nanoscale roughness surface Economically improving heat conduction from microelectro mechanical systems (MEMS) and microelectronics is a growing issue...

... chromium heat conduction mixing silicon thermoreflectance thermal boundary conductance nanoscale solid-solid interfaces material diffusion Auger electron spectroscopy elemental characterization diffuse scattering pump-probe transient thermoreflectance technique Thermal management...

... conductivity thermoreflectance thermal boundary conductance diffuse mismatch model inelastic scattering nanoscale solid interfaces The ongoing trend of miniaturization of devices with structures on nanometer length scales has given rise to new challenges in the science and engineering...

.... , Mahan , G. , Majumdar , A. , Maris , H. , Merlin , R. , and Phillpot , S. , 2003 , “ Nanoscale Thermal Transport ,” J. Appl. Phys. 0021-8979 10.1063/1.1524305 , 93 ( 2 ), p. 793 – 818 . Sinha , S. , Shelling , P. K. , Phillpot , S. R. , and Goodson , K. E...

... at temperatures of 25, 700, and 910 ° C . This paper presents numerical predictions of the absorptance of selected nanoscale patterns that may be found in the device structures in advanced CMOS technology. The effects of temperature, wavelength, polarization, and angle of incidence are systematically...

... gates electron-phonon interactions ballistic transport heat conduction Monte Carlo methods devices heat transfer modeling nanoscale thermophysical The question of an anomalous temperature rise due to ballistic phonon transport near the heat source in a transistor remains unresolved...

...Wenjun Liu; Mehdi Asheghi Self-heating in deep submicron transistors (e.g., silicon-on-insulator and strained-Si) and thermal engineering of many nanoscale devices such as nanocalorimeters and high-density thermomechanical data storage are strongly influenced by thermal conduction in ultra-thin...

... magnetoresistance magnetocaloric effects GMR heat transfer measurement techniques nanoscale ultra-thin films Magnetic hard disk drives continue to be the primary, high performance technology for data storage in computers and data processing systems. High areal densities have been achieved...

... Fourier analysis Conduction Electronics Heat Transfer Microscale Modeling Nanoscale The full phonon dispersion model has been applied to study the problem of self-heating in a submicron silicon on insulator transistor 45 . The thermal predictions are compared to those obtained from...

... thin films Heat Conduction Microscale Nanoscale Heat Transfer Boltzmann Transport Equation During the last decade, heat transfer at microscale has been the object of intense studies 1 2 . The research effort has been driven by important applications in microelectronics, thin films...

... in Micro/Nanoscale Solid State Devices ,” ASME J. Heat Transfer , 124 ( 2 ), pp. 223 – 241 . Chen , G. , and Shakouri...

.... , 2003 , “ Nanoscale Thermal Transport ,” Applied Physics Reviews , 93 ( 2 ), pp. 793 – 818 . Ashcroft, N. W., and Mermin, N. D., 1976, Solid State Physics , Saunders Company...

... dispersion (wave) heat transfer electromagnetic wave propagation electromagnetic wave refraction Electromagnetic Heat Transfer Microscale Nanoscale Radiation In reality, all radiation propagates in a group of electromagnetic waves of different frequencies. In a nondispersive medium...