From owner-watcher-work@jp.FreeBSD.org Fri Sep 14 22:20:50 2007
Received: (from daemon@localhost)
	by castle.jp.FreeBSD.org (8.11.6p2+3.4W/8.11.3) id l8EDKo357456;
	Fri, 14 Sep 2007 22:20:50 +0900 (JST)
	(envelope-from owner-watcher-work@jp.FreeBSD.org)
Received: from adsl-216-63-136-193.dsl.lbcktx.swbell.net (adsl-216-63-136-193.dsl.lbcktx.swbell.net [216.63.136.193])
	by castle.jp.FreeBSD.org (8.11.6p2+3.4W/8.11.3) with ESMTP/inet id l8EDKcB57438
	for <watcher-work@jp.freebsd.org>; Fri, 14 Sep 2007 22:20:38 +0900 (JST)
	(envelope-from moses@strykercorp.com)
Received: from [216.63.136.193] by NS1-AUTH.SPRINTLINK.NET; Fri, 14 Sep 2007 13:07:36 +0000
Message-ID: <000701c7f6d0$065ed484$23816298@esoseh>
From: "adair stephany" <moses@strykercorp.com>
To: <watcher-work@jp.FreeBSD.org>
MIME-Version: 1.0
Content-Type: text/plain;
	format=flowed;
	charset="iso-8859-1";
	reply-type=original
Content-Transfer-Encoding: 7bit
X-Priority: 3
X-MSMail-Priority: Normal
X-Mailer: Microsoft Outlook Express 6.00.3790.2663
X-MimeOLE: Produced By Microsoft MimeOLE V6.00.3790.2757
Reply-To: watcher-work@jp.FreeBSD.org
Precedence: list
Date: Fri, 14 Sep 2007 11:20:13 +0000
X-Sequence: watcher-work 3173
Subject: [watcher-work 3173] Serious jobs for serious people. No investment needed.
Sender: owner-watcher-work@jp.FreeBSD.org
X-Originator: moses@strykercorp.com
X-Distribute: distribute version 2.1 (Alpha) patchlevel 24e+060209

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.

A decade ago, Saraswat's research group was the first to begin developing a new kind of chip architecture: the 3-dimensional integrated circuit (3-D IC). Compared to the 2-D planar chips in computers today, 3-D chips can provide the same processing power with a reduced chip surface area. Also, instead of having long, twisting highways of wires, the stacked chips in 3-D ICs allow for short wires much like elevator shafts, as Professor Chidsey puts it-mitigating the problem of delay in the wires. Moreover, 3-D IC architecture allows the integration of all kinds of chips, since chips that require different technologies or materials can be stacked together.
It's easy to define and describe a nanometer: a nanometer is a billionth of a meter. That's a millionth of a pinhead, a thousandth of a red blood cell diameter, or the length of a line of ten hydrogen atoms rubbing shoulders. If only knowing what nanotechnology really means were as simple: "Have you heard the story of the elephant and the blind man?" Professor Krishna Saraswat chuckles. "Nanotechnology has different meanings to different people, but the conventional definition is the science of material patterned at the 1-100 nm length scale," notes Professor Michael McGehee. Professor Chris Chidsey muses, "Nanotechnology is a concept that is largely designed to capture people's imagination rather than describe a particular type of research. It's largely an attempt to portray a unified vision for a pretty wide-ranging group of activities that might not otherwise get recognized."
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:


