[5158] in sapr3-soft
Become employed today in a respectable international company and reach the financial success. (no investment reqired)
daemon@ATHENA.MIT.EDU (dallon aruna)
Tue Sep 11 14:29:44 2007
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From: "dallon aruna" <vijay@tvheaven.com>
To: <sapr3-soft@mit.edu>
Date: Tue, 11 Sep 2007 16:42:14 +0000
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International company Web Electronic Industry
is taking the candidates in the USA for the position of Local Agent.
We are looking for the trustworthy person with excellent organizational and communicative skills.
Good knowledge of computer and business relations practice will be your advantage.
This is a part-time job which can be combined with any permanent or another part-time job.
Average workload is up to 8 hours a week.
No special experience is necessary. Excellent compensation
package, the salary starts from $20,000 a year.
If you got interested in our vacancy and you have any questions,
please contact us staff@w-ei.com
The offer is for USA citizens only.
The main challenge in 3-D IC design is performance-weakening heat dissipation, which is already a problem in 2-D chips, as any Stanford students who have written a term paper with their laptops on their laps know. The multi-layer design of 3-D ICs exacerbates the problem, and Mechanical Engineering Professors Ken Goodson and Tom Kenney have been working on flowing fluid through microchannels incorporated in the chips to conduct the heat away.
All over campus, Stanford has eagerly embraced the "grand challenges" of nanotechnology. Just this April, the Stanford Nanofabrication Facility (SNF) hosted an open house to celebrate its selection to be part of the National Science Foundation-sponsored National Nanotechnology Infrastructure Network sprawling across thirteen universities nationwide. Along with the new Nanocharacterization Laboratory expanding the SNF, the nearly finished Manoharan lab that Stanford students bike past on the way to physics lab embodies the prominent place nanotechnology has in Stanford research for years to come. Specifically, the Manoharan lab is equipped to manipulate matter on an atomic level. Here's a cross-section of nanotechnology research currently being pursued at Stanford:
As a term, nanotechnology is clearly ambiguous. Moreover, it has already been claimed by the Drexlerians, apostles of K. Eric Drexler, who was one of the first to popularize nanotechnology with the publication of his 1987 book, Engineers of Creation: The Coming Era of Nanotechnology. According to Professor Steve Block, the Drexlerians have a futurist vision of nanotechnology in which self-replicating molecular assemblers programmed at the molecular-scale manufacture arbitrary products at the atomic level, molecule by molecule, bottom up. Some scientists have attempted to distance themselves from the futurist Drexlerians by claiming the term nanoscience. There's also another motivation for the excision of "technology" in this term. Nanoscience, as a term, captures the learning-the fundamental understanding of processes and materials at the nanoscale-that many scientists feel is necessary before or at the same time that researchers turn to engineering solutions. The term nanote
chnology, on the other hand, reinforces what Chidsey describes as a "glib attitude" that "technology is the goal of science at this length scale."
