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Breaking the Wall of Traditional Electronics : How Embracing Disorder in Nanotechnology May Lead to Quantum Machines

Author: Falling Walls Foundation.; Films for the Humanities & Sciences (Firm); Films Media Group.
Publisher: New York, N.Y. : Films Media Group, [2013], ©2012.
Edition/Format:   eVideo : Clipart/images/graphics : EnglishView all editions and formats
Summary:
While many today are barely keeping up with all the latest digital marvels, others are focused on finding ways to reinvent computing altogether - such as through recent efforts to engineer "quantum machines." The quantum mechanical nature of matter at the atomic scale may not only allow us to build information technologies with unprecedented levels of computational power, but may also lead us to discover and develop  Read more...
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Details

Genre/Form: Videorecording
Educational films
Internet videos
Additional Physical Format: Originally produced:
Falling Walls Foundation, 2012
Material Type: Clipart/images/graphics, Internet resource, Videorecording
Document Type: Internet Resource, Computer File, Visual material
All Authors / Contributors: Falling Walls Foundation.; Films for the Humanities & Sciences (Firm); Films Media Group.
OCLC Number: 863065089
Notes: Encoded with permission for digital streaming by Films Media Group on August 10, 2013.
Films on Demand is distributed by Films Media Group for Films for the Humanities & Sciences, Cambridge Educational, Meridian Education, and Shopware.
Part of the Falling Walls conference.
Title from distributor's description.
Target Audience: 11 & up.
Description: 1 online resource (1 video file (16 min.)) : sound, color
Contents: Limits of Current Electronics (1:35) --
Order and Disorder (2:04) --
From Binary Technology to Quantum Electronics (1:23) --
The Quantum World (2:48) --
Build Technology Based on Unusual Rules of Nature (2:11) --
Quantum Computer is a Network of Qubit Relationships (2:16) --
How Can We Use These Machines? (1:21) --
Potential for Quantum Computers (1:14) --
New Generation of Quantum Engineers (0:22) --
Credits: Breaking the Wall of Traditional Electronics: How Embracing Disorder in Nanotechnology May Lead to Quantum Machines (0:00).
Other Titles: How Embracing Disorder in Nanotechnology May Lead to Quantum Machines
Traditional Electronics
Responsibility: Falling Walls Foundation.

Abstract:

While many today are barely keeping up with all the latest digital marvels, others are focused on finding ways to reinvent computing altogether - such as through recent efforts to engineer "quantum machines." The quantum mechanical nature of matter at the atomic scale may not only allow us to build information technologies with unprecedented levels of computational power, but may also lead us to discover and develop new ways of embracing the defects and disorder that nature has made common at the nanoscale. David Awschalom - an award-winning, experimental physicist in semiconductor spintronics at the University of California, Santa Barbara - is working with his team to make quantum machines a reality, by mobilizing atomic-scale defects in diamonds and diamond-like materials to store and process information in a uniquely quantum-mechanical way. In this Falling Walls lecture, Awschalom discusses his latest work, including some of the potential uses and future challenges of these technologies.

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