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Solid-state microrefrigeration in conjonction with liquid cooling
2008 Second International Conference on Thermal Issues in Emerging Technologies, 2008Thermal design requirements are mostly driven by the peak temperatures. Reducing or eliminating hot spots could alleviate the design requirement for the whole package. Combination of solid-state and liquid cooling will allow removal of both hot spots and background heating.
Younes Ezzahri, Ali Shakouri
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Hybrid Solid State/Fluidic Cooling for Hot Spot Removal
Nanoscale and Microscale Thermophysical Engineering, 2008In this paper we describe a novel cooling scheme utilizing a combination of fluidic (single-phase convection and phase change) and solid-state (superlattice cooler) techniques to simultaneously remove high background heat fluxes (~100 W/cm2) over the entire chip and dissipate ultra high heat fluxes (~0.5-1 kW/cm2) from multiple localized hotspots. This
Vivek Sahu +2 more
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New Electronics, 2018
US based Phononic's thermoelectric technology is proving truly disruptive in the usually staid world of cooling technology.
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US based Phononic's thermoelectric technology is proving truly disruptive in the usually staid world of cooling technology.
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Solid-State Cooling in Automotives for Climate Control
SAE Technical Paper Series, 2023<div class="section abstract"><div class="htmlview paragraph">In modern vehicles, a significant amount of power is consumed to cool the cabin and maintain the passengers' thermal comfort, which results in energy drain from the battery, reducing the overall energy efficiency of the vehicle.
Aashish Kumar +2 more
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Solid-state cryo-cooling using optical refrigeration
CLEO: 2014, 2014Optical refrigeration provides the only solid-state technology capable of reaching cryogenic temperatures, currently below 100K.
Seth D. Melgaard +5 more
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Introduction to cryogenic solid state cooling
SPIE Proceedings, 2016Thermoelectric (Peltier) coolers have historically not been used for cooling to temperatures much below 200 K, because of limitations with existing thermoelectric materials. There are many advantages to solid-state coolers: they have no moving parts, are compact, vibration-free, inherently durable, and scalable to low power levels.
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Solid state physics and cooling of neutron stars
Astrophysics and Space Science, 1975First we show the possible effect of the ‘magnetic’ condensation on cooling of neutron stars. Its observational significance (especially for younger pulsars such as the Crab pulsar) is emphasized. Other effects of solid state physics on cooling are also discussed.
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Solid-state lasers with internal radiation cooling
2003 Conference on Lasers and Electro-Optics Europe (CLEO/Europe 2003) (IEEE Cat. No.03TH8666), 2004In this paper, new schemes of radiation-balanced laser are proposed. In the first scheme, the pumping radiation is absorbing on the central wavelength of one impurity that excites another impurity by nonradiative up-conversion energy transfer with absorption of phonon and the second impurity serves for the generation of radiation and withdrawal of ...
S.N. Andrianov +2 more
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Technical Notes: Solid State Cooled Thermogradient Incubator
Transactions of the ASAE, 1987ABSTRACT Athermogradient seed incubator having an electrical-ly heated upper surface and a thermoelectrically cooled lower surface was built and tested. The incubator consisted of a rectangular aluminum box 10.8 cm wide, 44.5 cm high and 35.6 cm long covered with 5 cm of styrofoam and 1.9 cm of plywood and fitted with twelve shelves.
null C. W. Suggs +2 more
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Template Based Assembly for Solid State Cooling
ASME 2007 InterPACK Conference, Volume 1, 2007This paper presents a fully dry assembly method to obtain densely packed arrays of parts from 400–800μm in size. This approach shows promise for enabling formation of a module of n and p type materials optimized for micro scale thermoelectric cooling performance.
Kerwin Wang +2 more
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