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QUIC Publications

Kimble Group, Caltech

Nov '97 - June '98

Dec '96 - Sept '97
1. “Well-Dressed States for Wavepacket Dynamics in Cavity QED,” D.W. Vernooy and H.J. Kimble, Phys. Rev. A56 (Nov. 1997), 4287.
2. “Quantum State Transfer and Entanglement Distribution Among Distant Nodes in a Quantum Network,” J.I. Cirac, P. Zoller, H.J. Kimble and H. Mabuchi, Physical Rev. Letters, Vol. 78, No. 16 (April 1997), 3221.
3. “Deterministic Generation of a Bit-Stream of Single-Photon Pulses,” C.K. Law and H.J. Kimble, J. Mod. Optics 44, 2067 (1997).
4. “Nonclassical Light Twenty Years Later - An Assessment of the Voyage into Hilbert Space,” H.J. Kimble, to be published in Philosophical Transactions A: The Royal Society (1997).
5. “Teleportation of Continuous Quantum Variables,” S.L. Braunstein and H.J. Kimble, Phys. Rev. Lett. (Submitted Sept., l997).
6. “Strong Interactions of Single Atoms and Photons in Cavity QED,” H.J. Kimble, Submitted for publication to Physica Scripta; The Royal Swedish Academy of Sciences (1997).
7. “High Q Measurements for Fused Silica Microspheres in the NIR,” D.W. Vernooy, V.S. Ilchenko, H. Mabuchi, E.W. Streed and H.J. Kimble, Opt. Lett. (to be published).
 8. “Cold Atoms in Cavity QED: Quantum Measurements and Quantum Traps,” M.S. Chapman, C.J. Hood, T.W. Lynn, H. Mabuchi, Q.A. Turchette and H.J. Kimble, Proceedings of 13th International Conference on Laser Spectroscopy (June 3, 1997).
9. “Quantum Structure and Dynamics for Atom Galleries,” D.W. Vernooy and H.J. Kimble, Phys. Rev. A55, 1239 (February l997).

to Sept '97
1 ."Well-Dressed States for Wavepacket Dynamics in Cavity QED," D. W. Vernooy and H. J. Kimble, submitted to Phys. Rev. A (1996).
2. "Quantum State Transfer and Entanglement Distribution Among Distant Nodes in a Quantum
Network," J. I. Cirac, P. Zoller, H. J. Kimble, and H. Mabuchi, submitted to Phys. Rev. Lett. (1996).
3. "Deterministic Generation of a Bit-Stream of Single-Photon Pulses," C. K. Law and H. J. Kimble,
submitted to J. Mod. Opt. (1996).

Despain Group, USC

Nov '97 - June '98
1."Simulating the Effect of Decoherence and Inaccuracies on a Quantum Computer."
Proceedings NASA Conference on Quantum Computation and Quantum Communication,
Palm Springs, CA. Feb. 1998.
2. Using Simulation to Assess the Feasibility of Quantum Computing Kevin M. Obenland.
Ph.D. Thesis University of Southern California May 1998.

Dec '96 - Sept '97
1. “A Parallel Quantum Computer Simulator,” To appear in the proceedings of High Performance Computing 1998.
2. “Models to Reduce the Complexity of Simulating a Quantum Computer” (Unpublished)

to Sept '96
1."Feasibility of a Quantum Computer Architecture," Kevin M. Obenland (USC
Dissertation Proposal 1996).
2. "Simulation of Factoring on a Quantum Computer Architecture," Keving M. Obenland
and Alvin M. Despain, submitted to the journal Transactions and Computers, (1996).
3."Simulation of Factoring on a Quantum Computer Architecture," Kevin M. Obenland and
Alvin M. Despain, Proceedings of Physics of Computation 1996.
4."Simulating a Quantum Computer Architecture," Kevin M. Obenland, and Alvin M.
Despain. (ISI Technical Report 1996).
5."Impact of Errors on a Quantum Computer Architecture," Kevin M. Obenland, and Alvin
M. Despain. (ISI Technical Report 1996).

Preskill Group, Caltech

Nov '97 - June '98
1."Fault-Tolerant Quantum Computation," J. Preskill, in Quantum Computation, edited by
H.-K. Lo, S. Popescu, and T. Spiller.
2. "Robust Solutions to Hard Problems," J. Preskill, Nature 391, 631 (12 Feb. 1998).
3. "Topological Quantum Computation," R. W. Ogburn and J. Preskill to appear in
Proceedings of the 1st NASA International Conference on Quantum Computing and
Quantum Communications, edited by C. Williams and S. Gulati.
4."Making Weirdness Work: Quantum Information and Computation," J. Preskill, in
 Proceedings of the 1998 IEEE Aerospace Conferance, edited by R. Profet.

Dec '96 - Sept '97
1. “Reliable Quantum Computers,”J. Preskill, Proceedings of the Royal Society of London A 454 (1998) 385-410.
2. “Quantum Computing: Pro and Con,” J. Preskill, Proceedings of the Royal Society of London A 454 (1998) 469-486.
3. “Fault-Tolerant Quantum Computation” J. Preskill, to appear in Quantum Computation, edited by Hoi-Kwong Lo, Sandu Popescu, and Tim Spiller.
4. “Optimal Universal and State-dependent Quantum Cloning,” D. Bruss, D. P. DiVincenzo, A. Ekert, C.A. Fuchs, C. Macchiavello, and J. A. Smolin, Physical Review A 57 (3), (1998). (Also [quant-ph/9705038]).
5. “Nonorthogonal Quantum States Maximize Classical Information Capacity,” C. A. Fuchs, Physical Review Letters 79 (6), 1162-1165 (1997).
6. “Optimal Eavesdropping in Quantum Cryptography. I. Information Bound and Optimal  Strategy,” C. A. Fuchs, N. Gisin, R. B. Griffiths, C. S. Niu, and A. Peres, Physical Review A 56 (2), 1163-1172 (1997).
7. “Entanglement-Enhanced Classical Communication on a Noisy Quantum Channel,” C. H. Bennett, C. A. Fuchs, and J. A. Smolin, in Quantum Communication, Computing and Measurement, edited by O. Hirota, A. S. Holevo, and C. M. Caves (Plenum Press, NY, 1997), pages 79-88.
8. “Cryptographic Distinguishability Measures for Quantum Mechanical States,” C. A. Fuchs and J. van de Graaf, submitted to IEEE Transactions on Information Theory. (See also [quant-ph/9712042]).
9. “Entanglement of Assistance-A New Measure of Entanglement,” D. P. DiVincenzo, C. A. Fuchs, H. Mabuchi, J. A. Smolin, A. Thapliyal, and A. Uhlmann, submitted to The 1st NASA International Conference on Quantum Computing & Quantum Communications (NASA QCQC'98), (a refereed conference).
10. “A Quantum Analog of Huffman Coding,” S. Braunstein, H.-K. Lo, C. A. Fuchs, and D. Gottesman, submitted to The 1998 IEEE International Symposium on Information Theory, (a refereed conference).
11. “Efficient Computations of Encoding for Quantum Error Correction,” R. Cleve and D. Gottesman, Phys. Rev. A 56 (1997) 76.
12. “A Theory of Fault-Tolerant Quantum Computation,” D. Gottesman, [quant-ph/9702029].
13. “Stabilizer Codes and Quantum Error Correction,” D. Gottesman, [quant-ph/9705052].

to Sept '97
1."Pasting Quantum Codes," Daniel Gottesman, submitted to Physics Rev. A (1996).
2."Efficient Computations of Encodings for Quantum Error Correction," Richard Cleve and
Daniel Gottesman, to appear in Phys. Rev. A (1996).
3."Efficient Networks for Quantum Factoring," D. Beckman, A. Chari, S. Devabhaktuni,
and J. Preskill, Phys. Rev. A 54 (1996), 1034.
4."Class of Quantum Error-Correcting Codes Saturating the Quantum Hamming Bound,"
D. Gottesman, Phys. Rev. A 54 (1996), 1862.

Koonin Group, Caltech

Nov '97 - June '98
1. Optical simulation of quantum logic, N. J. Cerf, C. Adami, and P. G. Kwiat, Phys. Rev.  A 57 (1998), R1477-Rl480.
2. Entropic bounds on coding for noisy quantum channels, N. J. Cerf, Phys.  Rev.  A 57
(1998), 3330-3347.
3. Quantum extension of conditional probability, N. J. Cerf and C. Adwni, submitted to
Phys.  Rev.  A. (quant-ph/9710001)
 4. Reduction criterion for separability, N. J. Cerf, C. Adami, and R. M. Gingrich,
 submitted to Phys.  Rev.  A. (quant-ph/9710001)
5. Quantum cloning and the capacity of the Pauli channel, N. J. Cerf, submitted to Phys.
Rev.  Lett. (quant-ph/9803058)
6. Information-theoretic aspects of quantum copying, N. J. Cerf, Lecture Notes in
Computer Science, (Springer-Verlag, 1998), in press.  Special issue for lst NASA
Workshop on Quantum Computation and Quantum Communication QCQC'98.
7. What information theory can tell us about quantum reality, C. Adami and
 N. J. Cerf, Lecture Notes in Computer Science, (Springer-Verlag, 1998), in press.
Special issue for lst NASA Workshop on Quantum Computation and Quantum
Communication QCQC'98. (quant-ph/9806047)
8. Quantum computation with linear optics, C. Adami and N. J. Cerf, Lecture Notes in
Computer Science, (Springer-Verlag, 1998), in press.  Special issue for Ist NASA
Workshop on Quantum Computation and Quantum Communication QCQC'98.
(quant-ph/9806048)
9. Asymmetric quantum cloning machines, N. J. Cerf, Acta Physica Slovaca 48 (1998),
in press.  Special issue on Quantum Optics and 'Quantum Information.
(quant-ph/9805024)
 10. Nested quantum search and NP-cornplete problems, N. J. Cerf, L. K. Grover and C.
P. Williams, Applicable Algebra in Engineering, Communication and Computing
(Springer-Verlag, 1998).  Special issue for the Dagstuhl Seminar on Quantum
Algorithms. (quant-ph/9806078)
 
Dec '96 - Sept '97
1. “Negative Entropy and Information in Quantum Mechanics,” N. J. Cerf and C. Adami, Phys. Rev. Lett. 79 (1997), 5194.
[KRL-MAP-191 and quant-ph/951202200]
2. “Negative Entropy in Quantum Information Theory,” N. J. Cerf and C. Adami,
in: New Developments on Fundamental Problems in Quantum Physics, ed. M. Ferrero and A. van der Merwe, Fundamental Theories of Physics 81, (Kluwer, Dordrecht, 1997), p. 77. [quant-ph/9610005]
3. “Quantum Information Theory of Entanglement and Measurement,” N. J. Cerf and C. Adami, Physica D (1997), in press. Also in: Proc. of the 4th Workshop on Physics and Computation, Boston 1996, ed. T. Toffoli, M. Biafore, and J. Leao (New England Complex Systems Institute, Cambridge, MA, 1996), p. 65. [KRL-MAP-199 and quant-ph/9605039]
4. “Physical Reality and Quantum Paradoxes,” C. Adami and N. J. Cerf, (submitted to Lecture Notes in Computer Science, Springer-Verlog, 1998). [KRL-MAP-204]
5. “Entropic Bell Inequalities,” N. J. Cerf and C. Adami, Phys. Rev. A 55 (1997) 3371. [KRL-MAP-205 and quant-ph/9608047]
6. “von Neumann Capacity of Noisy Quantum Channels,” C. Adami and N. J. Cerf, Phys. Rev. A 56 (1997) 3470. [KRL-MAP-206 and quant-ph/9609024]
7. “Information-Theoretic Interpretation of Quantum Error-Correcting Codes,” N. J. Cerf and R. Cleve, Phys. Rev. A 56 (1997) 1721. [KRL-MAP-209 and quant-ph/9702031]
8. “Accessible Information in Quantum Measurement,” N. J. Cerf and C. Adami, submitted to Phys. Rev. Lett. [KRL-MAP-207 and quant-ph/9611032]
9. “Monte Carlo Simulation of Quantum Computation,” N. J. Cerf and S. E. Koonin, Math. and Computers in Simulation (1997), in press. Also in: Proc. of the IMACS (International Association for Mathematics and Computers in Simulation) Conference on Monte Carlo Methods, 1997. [KRL-MAP-212 and quant-ph/9703050]
10. “Optical Simulation of Quantum Logic,” N. J. Cerf, C. Adami, and P. G. Kwiat, Phys. Rev. A. (1998) in press. [KRL-MAP-211 and quant-ph/9706022]
11. “Entropic Bounds on Coding for Noisy Quantum Channels,” N. J. Cerf, Phys. Rev. A. (1998) in press. [KRL MAP-215 and quant-ph/9707023]
12. “Quantum Conditional Operator and a Criterion for Separability,” N. J. Cerf, C. Adami, and R. M. Gingrich, submitted to Phys. Rev. A. [KRL MAP-217 and quant-ph/9710001]

to Sept '97
1."Quantum Mechanics of Measurement," N. J. Cerf and C. Adami, submitted to Phys. Rev.
A (1996).
2. "Capacity of a Noisy Quantum Channel," C. Adami and N. J. Cerf, submitted to Phys.
 Rev. A (1996).
3."Accessible Information in Quantum Measurement," N. J. Cerf and C. Adami, submitted
to Phys. Rev. Lett.(1996).
4."Quantum Information Theory of Entanglement and Measurement," N. J. Cerf and C.
Adami, presented at the 4th Workshop on Physics and Computation, Boston, November
1996, submitted to Physica D (1996).
5."Negative Entropy in Quantum Information Theory," N. J. Cerf and C. Adami, to appear
in the Proceedings of the 2nd International Symposium on Fundamental Problems in
Quantum Physics, Oviedo 1996, (Kluwer Academic Publishers).
 

Lloyd Group, MIT

Nov '97 - June '98
1.Lloyd, S., ``Universe as Quantum Computer," Complexity, 3/1, 32-35, 1997.
2.Lloyd, S., and D. Abrams, ``Simulation of Many-Body Fermi Systems on a Universal
Quantum Computer," Physical Review Letters 79, 2586-2589, 1997.
3.Lloyd, S., ``Quantum-Mechanical Maxwell's Demon," Physical Review A 56,
 3374-3382, 1997.
4. Lloyd, S., ``Microscopic Analogs of the Greenberger-Horne-Zeilinger Experiment,''
Physical Review A 57 R1473-1476, 1998.
5.Lloyd, S., and J.J.-E. Slotine, ``Analog Quantum Error Correction,'' Physical Review
Letters, 80, 4088-4091, 1998.
6.Lloyd, S., and I.L. Chuang, L.M.K. Vandersypen, X. Zhou, D.W. Leung, ``Experimental
Realization of a Quantum Algorithm,'' Nature, May, 1998.
7.Lloyd, S., ``Unconventional Quantum Computing Devices,'' in Unconventional Models of
Computation, C.S. Calude, J. Casti, M.J. Dinneen, eds., Springer, Singapore, 1998.
8.Lloyd, S., and D. Abrams, ``Computational Complexity and Physical Law,'' proceedings
of the NASA Conference on Quantum Computation and Quantum Coherence, Palm
 Springs, February, 1998. Springer, Singapore, 1998.
9. Lloyd, S., and D. Abrams, ``Nonlinear Quantum Mechanics Allows the Rapid Solution
of NP-complete and \#P Problems,'' submitted to Physical Review Letters, January, 1998.

Dec '96 - Sept '97
1. “Capacity of the Noisy Quantum Channel,” Physical Review A 55, R1613-1622, March 1997.
2. “Simulation of Many-Body Fermi Systems on a Universal Quantum Computer,” with Dan Abrams, Physical Review Letters 79, 2586-2589, 1997.
3. “Quantum-Mechanical Maxwell's Demon,” to appear in Physical Review A.
4. “Controllability and Observability of Quantum Systems,” submitted to Physical Review Letters, March 13, 1997.
5. “Analog Quantum Error Correction,” with J.J.E. Slotine, submitted to Physical Review Letters, December 15, 1997.
6. “Unconventional Quantum Computing Devices,” submitted to the proceedings of the Auckland Conference on Unconventional Computation.
7. “Universe as Quantum Computer,” Complexity 3, p. 32, 1997.
8. “Microscopic Analogs of the Greenberger-Horne-Zeilinger Experiment,” to appear in Physical Review A.
 
 to Sept '97
1."Universal Quantum Simulators," Seth Lloyd, Science 273 (5278), pp.1073-1078, August
23, 1996.
2. "Information Measures, Effective Complexity, and Total Information," Seth Lloyd and
Murray Gell-Mann, Complexity, 2/1, p. 44, September 1996.
3. "Simulation of Many-Body Fermi System on a Universal Quantum Computer," Seth
Lloyd, submitted to Phys. Rev. Lett., November 1996.
4."A Quantum Mechanical Maxwell's Demon," S. Lloyd, submitted to Phys. Rev. A,
November 1996.
5. "Universe as Quantum Computer," S. Lloyd, submitted to Complexity, 1996.
6."The Capacity of the Noisy Quantum Channel," S. Lloyd, submitted to Phy. Rev. A.,
1996.

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