Quantum Computing
Qubits and Logic   Architectures   Communications and Storage   Theory and Algorithms

Qubits and Logic

Michael Chapman, Georgia Institute of Technology
Atlanta, Georgia
www.physics.gatech.edu/ultracool

Robert Clark, University of New South Wales
Sydney, Australia
www.phys.unsw.edu.au/STAFF/ACADEMIC/clark.html

David G. Cory, Massachusetts Institute of Technology
Cambridge, Massachusetts
mrix4.mit.edu/Cory/Cory.html

David Kielpinski, Massachusetts Institute of Technology
Cambridge, Massachusetts
web.mit.edu/physics/research/pappalardofellowshipsprogram/pappalardofellowsbios.html#kielpinski

Paul G. Kwiat, University of Illinois
Urbana-Champaign, Illinois
www.physics.uiuc.edu/People/Faculty/profiles/Kwiat

Daniel Lidar, University of Toronto
Toronto, Canada
qubit.chem.utoronto.ca/Lidar.html

Daniel Loss, University of Basel
Basel, Switzerland
theorie5.physik.unibas.ch/loss

Yuriy Makhlin, University of Karlsruhe
Karlsruhe, Germany
www-tfp.physik.uni-karlsruhe.de/~makhlin

Florian Meier, University of California, Santa Barbara
Santa Barbara, California
theorie5.physik.unibas.ch/meier

Terry P. Orlando, Massachusetts Institute of Technology
Cambridge, Massachusetts
www.rle.mit.edu/superconductivity

Eugene Polzik, University of Aarhus
Aarhus, Denmark
www.dfi.aau.dk/amo/qoptics/qoptics.htm

Mark Saffman, University of Wisconsin
Madison, Wisconsin
hexagon.physics.wisc.edu

Mark Sherwin, University of California, Santa Barbara
Santa Barbara, California
www.physics.ucsb.edu/People/person.php3?userid=sherwin

Jens Siewert, University of Regensburg
Regensburg, Germany
homepages.uni-regensburg.de/~sij05914

Jaw-Shen Tsai, NEC Research and RIKEN
Wako, Japan
www.riken.go.jp/engn/r-world/research/lab/frontier/quantum/coherence

K. Brigitta Whaley, University of California, Berkeley
Berkeley, California
www.cchem.berkeley.edu/~kbwgrp

David J. Wineland, National Institute of Standards and Technology
Boulder, Colorado
www.boulder.nist.gov/timefreq/ion

Peter Zoller, University of Innsbruck
Innsbruck, Austria
th-physik.uibk.ac.at/qo/zoller

Architectures

Neil Gershenfeld, Massachusetts Institute of Technology
Cambridge, Massachusetts
web.media.mit.edu/~neilg

Robert Joynt, University of Wisconsin
Madison, Wisconsin
uw.physics.wisc.edu/~joynt

Bruce Kane, University of Maryland
College Park, Maryland
www.glue.umd.edu/~bekane/QC/QC@UMD’s_LPS_Bruce_Kane.htm

Franco Nori, University of Michigan
Ann Arbor, Michigan
www-personal.engin.umich.edu/~nori

Communications and Storage

Jon Dowling, Jet Propulsion Laboratory
Pasadena, California
home.earthlink.net/~jpdowling

Philippe Grangier, French National Scientific Research Center (CNRS)
Orsay Cedex, France
www.iota.u-psud.fr/~grangier/Quantum_optics.htm

Philip Hemmer, Texas A&M University
College Station, Texas
ee.tamu.edu/People/bios/hemmer.html

H. Jeff Kimble, California Institute of Technology
Pasadena, California
www.its.caltech.edu/~qoptics

Prem Kumar, Northwestern University
Evanston, Illinois
www.ece.northwestern.edu/~kumarp

Selim M. Shahriar, Northwestern University
Evanston, Illinois
www.ece.northwestern.edu/faculty/Shahriar_Selim.html

Harald Weinfurter, University of Munich
Munich, Germany
scotty.quantum.physik.uni-muenchen.de

Anton Zeilinger, University of Vienna
Vienna, Austria
www.ap.univie.ac.at/users/Anton.Zeilinger


Theory and Algorithms

Dorit Aharonov, Hebrew University
Jerusalem, Israel
www.cs.huji.ac.il/~doria

Simon Benjamin, University of Oxford
Oxford, England
www.materials.ox.ac.uk/peoplepages/benjamin.html

Sougato Bose, Oxford University
Oxford, England
www.qubit.org/people/sougato

Isaac Chuang, Massachusetts Institute of Technology
Cambridge, Massachusetts
feynman.media.mit.edu/ike

Richard E. Cleve, University of Calgary
Calgary, Canada
pages.cpsc.ucalgary.ca/~cleve

David DiVincenzo, IBM Research
Yorktown, New York
www.research.ibm.com/ss_computing

Artur Ekert, University of Oxford
Oxford, England
cam.qubit.org/users/artur/index.php

Lucien Hardy, Oxford University
Oxford, England
www.qubit.org/people/lucien_hardy

Daniel Gottesman, Perimeter Institute
Waterloo, Canada
perimeterinstitute.ca/people/researchers/dgottesman

Lov K. Grover, Bell Laboratories
Murray Hill, New Jersey
www1.bell-labs.com/user/lkgrover

Bernardo A. Huberman, Hewlett-Packard Laboratories
Palo Alto, California
www.hpl.hp.com/shl/people/huberman

Richard Jozsa University of Bristol
Bristol, England
www.cs.bris.ac.uk/~richard

Emanuel Knill, Los Alamos National Laboratory
Los Alamos, New Mexico
www.c3.lanl.gov/~knill

Seth Lloyd, Massachusetts Institute of Technology
Cambridge, Massachusetts
www-me.mit.edu/people/personal/slloyd.htm

David A. Meyer, University of California, San Diego
La Jolla, California
www.math.ucsd.edu/~dmeyer

Gerard J. Milburn, The University of Queensland.
Brisbane, Australia
www.qcaustralia.org/bio/staff_milburn.htm

John Preskill, California Institute of Technology
Pasadena and, California
www.theory.caltech.edu/people/preskill

Leonard J. Schulman, California Institute of Technology
Pasadena, California
www.cs.caltech.edu/~schulman


Umesh Vazirani, University of California at Berkeley
Berkeley, California
www.cs.berkeley.edu/~vazirani

Vlatko Vedral, Imperial College, London
London, England
www.qubit.org/people/vlatko

John Watrous, University of Calgary
Calgary, Canada
www.cpsc.ucalgary.ca/~jwatrous

Colin P. Williams, Jet Propulsion Laboratory
Pasadena, California
cism.jpl.nasa.gov/sando/cwilliams.html


What to Look For

Qubits and Logic:

Encoding information in logical qubits
Creating entanglement on demand
Qubits that last for whole seconds
Reliably transferring information from atoms to photons and back

Computers:

Fault-tolerant operation of a multi-qubit computer
10-qubit computer
100-qubit computer
1,000-qubit computer
A quantum computer that outperforms classical computers

Communications:

Electric, room-temperature single-photon sources
Efficient sources of entangled photons
Efficient room-temperature photon detectors
Quantum repeaters or relays

Algorithms:

Proof of a quantum speedup for route optimization-type problems
Proof of a quantum speedup for pattern recognition problems
Proof of a quantum speedup for simulating chaos


 


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