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Department of Electrical Engineering and Computer Science
Department of Mechanical Engineering
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6.050J/2.110J – Information, Entropy and Computation –
Spring 2009
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Unit 13: Quantum Information
Schedule
Lecture |
Tuesday, May 12, 2009, 1:00 PM |
Room 36-153 |
Recitation |
Thursday, May 14, 2009, 1:00 PM |
Room 36-153 |
Final exam |
Tuesday, May 19, 2009, 1:30 PM - 4:30 PM |
Room 32-124 |
Closed book except that two sheets of 8 1/2 x 11 inch paper,
with notes on both sides, are allowed
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Lecture Handouts
Students who for any reason did not receive these items can pick up a copy
in Room 38-344. Most of this material is also available on the 6.050J/2.110J
Web site
http://mtlsites.mit.edu/Courses/6.050.
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Unit
13 Resources (this page)
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6.050J/2.110J Notes
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T. P. Spiller, "Quantum Information Processing: Cryptography, Computation,
and Teleportation," Proc. IEEE, vol. 84, no. 12, pp. 1719-1746; December,
1996. Although this paper is several years old, it provides an excellent
introduction for students
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Isaac L. Chuang, Lieven M. K. Vandersypen, Xinlan Zhou, Debbie W. Leung,
and Seth Lloyd, "Experimental Realization of a Quantum Algorithm," Nature,
vol. 393, p. 6681; 1998
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Seth Lloyd, "Quantum-mechanical Maxwell's demon," Physical Review A, vol.
56, no. 5, pp. 3374-3382; November, 1997
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"The cost of forgetting," The Economist, December 13, 1997. A popular
summary of this scientific paper
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"Quantum Information," Physics World, pp. 35-57; March, 1998. Some popular
articles covering various aspects of quantum information, including quantum
communication, quantum cryptography, quantum computing, and some possible
ways of implementing the ideas
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Richard P. Feynman, "Simulating Physics with Computers," International
Journal of Theoretical Physics, vol. 21, nos. 6/7, pp. 467-488; 1982.
Keynote speech at a conference held at MIT that was one of the first in the
newly developing field of quantum information
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Bruce Kane, "Scalable Quantum Computing Using Solid-State Devices," The
Bridge, vol. 32, no. 4, pp. 5-8; Winter, 2002. Technologies that might
support quantum information processing and scale to a reasonable number of
qubits
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Michael Hiltzik, "Harnessing Quantum Bits," Technology Review, vol. 106,
no. 2, pp. 58-63; March, 2003. Story about implementations of quantum
computers from several laboratories
Reading Assignment
Resources
Technical
Prof.
John
Preskill teaches a
course on
quantum information at Caltech.
Lecture
notes.
Centre for Quantum Computation,
University of Oxford.
An extensive set of
links to tutorials on quantum information.
One of the most active industrial research groups in quantum information is
at IBM Research
Yorktown. This was the home of one of the early leaders in the field,
the late Rolf Landauer, and younger people including
Charles
Bennett, who is known for his work on quantum teleportation.
Historical
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Rolf Landauer
obituary
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Richard P. Feynman
biography.
Feynman, an MIT graduate, was curious about the nature of quantum
information
Books
There are already many books and conferences on quantum information, even
though the field is new.
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Hoi-Kwong Lo, Sandu Popescu, and Tim Spiller, "Introduction to Quantum
Computation and Information," World Scientific, Singapore; 1998. The book
is based on a lecture series held at Hewlett-Packard Laboratories, Bristol,
UK, November 1996 - April, 1997
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Michael A. Nielsen and Isaac L. Chuang, "Quantum Computation and Quantum
Information," Cambridge University Press, Cambridge, UK; 2000. This is
probably the best of the books intended for scientists and engineers.
Chuang, an MIT graduate, is currently on the MIT faculty
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Dirk Bouwbeester, Artur Ekert, and Anton Zeilinger, editors, "The Physics
of Quantum Information: Quantum Cryptography, Quantum Teleportation,
Quantum Computation," Springer-Verlag, Berlin, Germany; 2000
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Jeffrey H. Shapiro and Osamu Hirota, editors, "Proceedings of the Sixth
International Conference on Quantum Communication, Measurement and
Computing," July 22-26, 2002, Cambridge, MA; Rinton Press, Princeton, NJ;
2003
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George Johnson, "A Shortcut through Time: The Path to the Quantum
Computer," Alfred A. Knopf, New York, NY; 2003. This book, written by a
New York Times science writer, is for the general public and may not be
technical enough for some readers
James
Clerk Maxwell opened up the relationship between information and entropy
by proposing what is called today Maxwell's Demon, which would apparently
violate the Second Law of Thermodynamics. Maxwell's Demon in its many forms
has captured the imagination of both scientists and the general public.
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Leon Brillouin, "Science and Information Theory," Second Edition, Academic
Press Inc, London, England; 1962. Topics include Brownian motion, thermal
noise, information theory, entropy, and the author's personal view of
Maxwell's Demon.
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Harvey S. Leff and Andrew F. Rex, "Maxwell's Demon: Entropy, Information,
Computing," Adam Hilger, Bristol BS1 6NX, England; 1990. General
historical discussion with many reprints of original papers but not,
regrettably, any of Maxwell's own publications.
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Hans Christian von Baeyer, "Maxwell's Demon," Random House, New York;
1998. A very good review for the general public, by a Professor of Physics
at the College of William and Mary, this book was written before the
quantum version of the demon was understood as well as it is today.
Help Wanted
6.050J/2.110J students: be the first to suggest a resource, for example a
useful Web site or a good book or article, to add to the list above. Send
your suggestion by e-mail during Spring 2009
to 6.050-staff at mit.edu.
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