1981
DOI: 10.1109/t-ed.1981.20549
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IIIB-8 implications of high performance heat sinking for electron devices

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Cited by 24 publications
(13 citation statements)
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“…2. The effects of radiation, gravity, body forces, viscous dissipation [1] and surface roughness are neglected [46]. 3.…”
Section: Mathematical Models Boundary Conditions and Governing Equatmentioning
confidence: 99%
See 1 more Smart Citation
“…2. The effects of radiation, gravity, body forces, viscous dissipation [1] and surface roughness are neglected [46]. 3.…”
Section: Mathematical Models Boundary Conditions and Governing Equatmentioning
confidence: 99%
“…In the past few years, due to the fast development of micro/nanosystems in different engineering applications, like micro-electronics cooling applications, medical instruments, etc., the need to develop high performance compact thermal devices with high efficiency, minimum cost, lightweight and with the smallest size possible is necessary. Pioneered by Tuckerman and Pease [1], the concept of a rectangular microchannel heat sink made of silicon was first introduced. Since then active research on its thermal-hydraulic performance has been focused on by several investigators as reviewed by Adham et al [2], Agostani et al [3] and Morini.…”
Section: Introductionmentioning
confidence: 99%
“…The above relation clearly shows that the source-to-drain current is maximum when the gate voltage (or, equivalently, the gate induced electric field y Ε ) is such that Φ is an even multiple of π, and it falls to zero when the gate voltage is such that Φ is an odd multiple of π. Since Φ depends on E y (see Equation (5) is also the ratio of the ON-current to OFF-current at a fixed source-to-drain bias, will be infinity since the OFF-current (corresponding to ( ) 2 1 n π Φ = + ) is zero 3 . In reality, this can be true only if the source spin injection efficiency and the drain spin detection efficiency are both 100%, i.e.…”
Section: The Spin Field Effect Transistor (Spinfet)mentioning
confidence: 99%
“…In 1981, Tuckerman et al rstly experimentally studied the convective heat transfer in microchannels and they veried that employing the cooling uid ow in microchannels could effectively dissipate the heat. 11 By driving the water to ow in the silicon microchannels with different aspect ratios, Wu et al discovered the uid temperature jump and velocity slip at the microchannel walls in their experiments. 12 Besides, they concluded that the surface roughness and surface hydrophilic property determined the Nusselt number.…”
Section: Introductionmentioning
confidence: 99%