- [Na-Wyatt 02]:
K. Na, & R. E. Wyatt,
"Decoherence demystified: The hydrodynamic viewpoint",
quant-ph/0201108.
- [Nagaj-Stelmachovic-Buzzek-Kim 02]:
D. Nagaj, P. Stelmachovic, V. Buzzek, & M. Kim,
"Quantum homogenization for continuous variables: Realization with linear
optical elements",
Phys. Rev. A 66, 6, 062307 (2002).
- [Nagarajan-Gay 02]:
R. Nagarajan, & S. Gay,
"Formal verification of quantum protocols",
quant-ph/0203086.
- [Nagata-Koashi-Imoto 02 a]:
K. Nagata, M. Koashi, & N. Imoto,
"Observables suitable for restricting the fidelity to multipartite maximally
entangled states",
Phys. Rev. A 65, 4, 042314 (2002).
- [Nagata 02]:
K. Nagata,
"Classification of mixed high-dimensional multiparticle systems",
Phys. Rev. A 66, 6, 064101 (2002).
- [Nagata-Koashi-Imoto 02 a]:
K. Nagata, M. Koashi, & N. Imoto,
"Configuration of separability and tests for multipartite entanglement in
Bell-type experiments",
Phys. Rev. Lett. 89, 26, 260401 (2002).
- [Nagata 03 a]:
K. Nagata,
"Incompatibility between two meanings of locality in quantum mechanics",
quant-ph/0302090.
- [Nagata 03 b]:
K. Nagata,
"Inequalities as tests for Kochen-Specker theorem for multipartite states",
quant-ph/0312052.
- [Nägerl-Bechter-Eschner-(+2) 98]:
H. C. Nägerl, W. Bechter, J. Eschner, F. Schmidt-Kaler, & R. Blatt,
"Ion strings for quantum gates",
Appl. Phys. B - Lasers Opt. 66, 603-608 (1998).
Reprinted in [Macchiavello-Palma-Zeilinger 00], pp. 339-344.
- [Nägerl-Leibfried-Rohde-(+4) 99]:
H. C. Nägerl, D. Leibfried, H. Rohde,
G. Thalhammer, J. Eschner, F. Schmidt-Kaler, & R. Blatt,
"Laser addressing of individual ions in a linear ion trap",
Phys. Rev. A 60, 1, 145-148 (1999).
- [Nagy 90]:
B. S. Nagy,
"Extensions of linear transformations in Hilbert space
which extend beyond this space",
appendix in F. Riesz, & B. S. Nagy,
Functional analysis,
Dover, New York, 1990.
- [Naik-Peterson-White-(+2) 00]:
D. S. Naik, C. G. Peterson, A. G. White,
A. J. Berglund, & P. G. Kwiat,
"Entangled state quantum cryptography:
Eavesdropping on the Ekert protocol",
Phys. Rev. Lett. 84, 20, 4733-4736 (2000);
quant-ph/9912105.
- [Nairz-Arndt-Zeilinger 01]:
O. Nairz, M. Arndt, & A. Zeilinger,
"Experimental verification of the Heisenberg
uncertainty principle for hot fullerene molecules",
quant-ph/0105061.
- [Nairz-Brezger-Arndt-Zeilinger 01]:
O. Nairz, B. Brezger, M. Arndt, & A. Zeilinger,
"Diffraction of complex molecules by structures made of light",
Phys. Rev. Lett. 87, 16, 160401 (2001);
quant-ph/0110012.
- [Nakhmanson 00 a]:
R. Nakhmanson,
"Informational interpretation of quantum mechanics",
physics/0004047.
- [Nakhmanson 00 b]:
R. Nakhmanson,
"Bell's theorem, entanglement, and common sense",
physics/0005042.
- [Nakhmanson 00 c]:
R. Nakhmanson,
"Very promising hole in Bell's theorem",
physics/0011022.
- [Nakhmanson 02]:
R. Nakhmanson,
"Wavepacket and its collapse",
quant-ph/0204068.
Comment on [Chiao-Kwiat 02].
- [Nakamura-Pashkin-Tsai 99]:
Y. Nakamura, Y. A. Pashkin, & J. S. Tsai,
"Coherent control of macroscopic quantum states in a single-Cooper-pair box",
Nature 398, 6730, 786-788 (1999).
See [Averin 99], [Collins 99].
- [Nambu-Tomita-Chiba Kohno-Nakamura 00]:
Y. Nambu, A. Tomita, Y. Chiba-Kohno, & K. Nakamura,
"Quantum key distribution using two coherent states
of light and their superposition",
Phys. Rev. A 62, 1, 012312 (2000);
quant-ph/9911035.
- [Nambu-Chiba Kohno 00]:
Y. Nambu, & Y. Chiba-Kohno,
"Information-theoretic description of no-go theorem of a bit
commitment",
quant-ph/0011068.
- [Nambu-Usami-Tsuda-(+2) 02]:
Y. Nambu, K. Usami, Y. Tsuda,
K. Matsumoto, & K. Nakamura,
"Generation of polarization-entangled photon pairs in a cascade of two type-I
crystals pumped by femtosecond pulses",
Phys. Rev. A 66, 3, 033816 (2002).
- [Nakamiki-Pascazio 93]:
M. Nakamiki, & S. Pascazio,
"Quantum theory of measurement based on the many-Hilbert-space approach",
Phys. Rep. 232, 6, 301-414 (1993).
- [Nakamiki-Pascazio-Nakazato 97]:
M. Nakamiki, S. Pascazio, & H. Nakazato,
Decoherence and quantum measurements,
World Scientific, Singapore, 1997.
Review: [Schulman 00].
- [Nakamiki 99]:
M. Nakamiki,
"Decoherence and wavefunction collapse in quantum measurements",
Found. Phys. 29, 3, 457-464 (1999).
- [Namiki-Hirano 03]:
R. Namiki, & T. Hirano,
"Security of quantum cryptography using balanced homodyne detection",
Phys. Rev. A 67, 2, 022308 (2003);
quant-ph/0205191.
- [Namiot-Chernavskii 03]:
V. A. Namiot, & D. S. Chernavskii,
"Efficient computing procedures and impossibility to solve the
problem of exact prediction of events in the quantum world",
Phys. Lett. A 320, 1, 1-4 (2003).
- [Narnhofer-Thirring 02]:
H. Narnhofer, & W. Thirring,
"Entanglement of mesoscopic systems",
Phys. Rev. A 66, 5, 052304 (2002).
- [Nascimento-Mueller Quade-Imai 01]:
A. C. A. Nascimento, J. Mueller-Quade, & H. Imai,
"Improving quantum secret-sharing schemes",
Phys. Rev. A 64, 4, 042311 (2001).
- [Nathanson 03]:
M. Nathanson,
"Quantum guessing via Deutsch-Jozsa",
quant-ph/0301025.
- [Nayak-Ta Shma-Zuckerman 00]:
A. Nayak, A. Ta-Shma, & D. Zuckerman,
"Interaction in quantum communication complexity",
quant-ph/0005106.
- [Nayak-Shor 03]:
A. Nayak, & P. Shor,
"Bit-commitment-based quantum coin flipping",
Phys. Rev. A 67, 1, 012304 (2003).
- [Navarro-Parra 81]:
L. Navarro, & J. M. Parra,
"Relevancia del problema E. P. R. en la fundamentación de la
mecánica cuántica",
in Libro homenaje a la memoria del profesor Ricardo Marqués
Fernández, Facultad de Física de la Universidad de Barcelona,
Barcelona, 1981, pp. 343-358.
- [Navarro 89]:
L. Navarro,
"Heterodòxia i ciència",
Quaderns Fundació Caixa de Pensions, 42, 60-69 (1989).
- [Navez-Gatti-Lugiato 01]:
P. Navez, A. Gatti, & L. A. Lugiato,
`A "quantum public key" based cryptographic scheme
for continuous variables',
quant-ph/0101113.
- [Navez-Brambilla-Gatti-Lugiato 02]:
P. Navez, E. Brambilla, A. Gatti, & L. A. Lugiato,
"Spatial entanglement of twin quantum images",
Phys. Rev. A 65, 1, 013813 (2002).
- [Navez-Gatti-Lugiato 02]:
P. Navez, A. Gatti, & L. A. Lugiato,
"Invisible transmission in quantum cryptography using continuous variables: A
proof of Eve's vulnerability",
Phys. Rev. A 65, 3, 032307 (2002).
- [Navez 02]:
P. Navez,
"Statistical confidentiality tests for a quantum transmission using continuous variables",
Eur. Phys. J. D 18, 2 (Special issue:
Quantum interference and cryptographic keys:
Novel physics and advancing technologies (QUICK) (Corsica, 2001), 219-228 (2002).
- [Navez-Cerf 03]:
P. Navez, & N. J. Cerf,
"Cloning a real d-dimensional quantum state on the edge of the no-signaling
condition",
Phys. Rev. A 68, 3, 032313 (2003);
quant-ph/0302172.
- [Nawaz-Toor 01 a]:
A. Nawaz, & A. H. Toor,
"Evolutionarily stable strategies in quantum Hawk-Dove game",
quant-ph/0108075.
- [Nawaz-Toor 01 b]:
A. Nawaz, & A. H. Toor,
"Worst-case payoffs in quantum battle of sexes game",
quant-ph/0110096.
- [Nazir-Spiller-Munro 02]:
A. Nazir, T. P. Spiller, & W. J. Munro,
"Decoherence of geometric phase gates",
Phys. Rev. A 65, 4, 042303 (2002).
- [Nelson 66]:
E. Nelson,
"Derivation of the Schrödinger equation from Newtonian mechanics",
Phys. Rev. 150, 4, 1079-1085 (1966).
- [Nelson 67]:
E. Nelson,
Dynamical theories of Brownian motion,
Princeton University Press, Princeton, New Jersey, 1967.
- [Nelson 85]:
E. Nelson,
Quantum fluctuations,
Princeton University Press, Princeton, New Jersey, 1985.
- [Nelson-Cory-Lloyd 00]:
R. J. Nelson, D. G. Cory, & S. Lloyd,
"Experimental demonstration of Greenberger-Horne-Zeilinger
correlations using nuclear magnetic resonance",
Phys. Rev. A 61, 2, 022106 (2000);
quant-ph/9905028.
- [Nelson-Weinstein-Cory-Lloyd 00]:
R. J. Nelson, Y. Weinstein, D. G. Cory, & S. Lloyd,
"Experimental demonstration of fully coherent quantum feedback",
Phys. Rev. Lett. 85, 14, 3045-3048 (2000).
- [Nemoto-Braunstein 02]:
K. Nemoto, & S. L. Braunstein,
"Equivalent efficiency of a simulated photon-number detector",
Phys. Rev. A 66, 3, 032306 (2002).
- [Nemoto-Braunstein 03 a]:
K. Nemoto, & S. L. Braunstein,
"Quantum coherence in the presence of unobservable quantities",
quant-ph/0306084.
- [Nemoto-Munro-Milburn-Braunstein 03]:
K. Nemoto, W. J. Munro, G. J. Milburn, & S. L. Braunstein,
"Quantum metrology: Detection of weak forces using Schrödinger cat
resources",
in J. H. Shapiro and O. Hirota (eds.),
Proc. of the Sixth Int. Conf. on Quantum
Communication, Measurement and Computing,
Rinton Press, Princeton, New Jersey, 2003, p. 333-?;
quant-ph/0312063.
- [Nemoto-Braunstein 03 a]:
K. Nemoto, & S. L. Braunstein,
"Quantum coherence: Myth or fact?",
submitted to Phys. Lett. A;
quant-ph/0312108.
- [Neumaier 99]:
A. Neumaier,
"On a realistic interpretation of quantum mechanics",
quant-ph/9908071.
- [Neumaier 00]:
A. Neumaier,
"Bohmian mechanics contradicts quantum mechanics",
quant-ph/0001011.
See [Ghose 00 a], [Marchildon 00].
- [Neumark 43]:
M. A. Neumark,
"On a representation of additive operator set functions",
Dokl. Acad. Sci. URSS 41, ?, 359-361 (1943).
- [Neumark 54]:
M. A. Neumark,
"Operatorenalgebren im Hilbertschen Raum",
in Sowjetische Arbeiten zur Funktionalanalysis, Verlag Kultur und
Fortschritt, Berlin, 1954. The theorem of von Neumann-Neumark is in p. 227;
see [von Neumann 31], [Park-Margenau 68], [Peres 90 a].
- [Newton-Young 68]:
R. G. Newton, & B. Young,
"Measurability of the spin density matrix",
Ann. Phys. 49, 3, 393-402 (1968).
- [Newton 80]:
R. G. Newton,
"Probability interpretation of quantum mechanics",
Am. J. Phys. 48, 12, 1029-1034 (1980).
- [Ni 98]:
G. Ni,
"Einstein-Pauli-Yukawa paradox-What is the physical reality?",
quant-ph/9803001.
- [Ni-Guan 99]:
G. Ni, & H. Guan,
"Einstein-Podolsky-Rosen paradox and antiparticle",
quant-ph/9901046.
- [Ni-Guan-Zhou-Yan 00]:
G. Ni, H. Guan, W. Zhou, & J. Yan,
"Antiparticle in light of Einstein-Podolsky-Rosen paradox
and Klein paradox",
Chinese Phys. Lett.;
quant-ph/0001016.
- [Ni 01]:
G. Ni,
"What Schrödinger's cat is telling",
quant-ph/0103064.
- [Nielsen 96 a]:
M. A. Nielsen,
"Properties of quantum trajectories for counting measurements",
J. Opt. B: Quantum Semiclass. Opt. 8, ?, 237-? (1996).
- [Nielsen 96 b]:
M. A. Nielsen,
"The entanglement fidelity and quantum error correction",
quant-ph/9606012.
- [Nielsen-Caves 97]:
M. A. Nielsen, & C. M. Caves,
"Reversible
quantum operations and their application to teleportation",
Phys. Rev. A 55, 4, 2547-2556 (1997);
quant-ph/9608001.
- [Nielsen-Chuang 97]:
M. A. Nielsen, & I. L. Chuang,
"Programmable quantum gate arrays",
Phys. Rev. Lett. 79, 2, 321-324 (1997);
quant-ph/9703032.
- [Nielsen 97]:
M. A. Nielsen,
"Computable functions, quantum measurements, and quantum dynamics",
Phys. Rev. Lett. 79, 15, 2915-2918 (1997);
quant-ph/9706006.
- [Nielsen-Caves-Schumacher-Barnum 98]:
M. A. Nielsen, C. M. Caves, B. W. Schumacher, & H. N. Barnum,
"Information-theoretic approach to quantum
error correction and reversible measurement",
in D. P. DiVincenzo. E. Knill, R. Laflamme, & W. H. Zurek (eds.),
Quantum Coherence and Decoherence.
Proc. of the ITP Conf. (Santa Barbara, California, 1996),
Proc. R. Soc. Lond. A 454, 1969, 277-304 (1998);
quant-ph/9706064.
- [Nielsen-Knill-Laflamme 98]:
M. A. Nielsen, E. Knill, & R. Laflamme,
"Complete quantum teleportation using nuclear magnetic resonance",
Nature 396, 6706, 52-55 (1998);
quant-ph/9811020.
- [Nielsen 98 a]:
M. A. Nielsen,
"Quantum information theory",
Ph. D. thesis, University of New Mexico, 1998;
quant-ph/0011036.
- [Nielsen 98 b]:
M. A. Nielsen,
"A partial order on the entangled states",
quant-ph/9811053.
- [Nielsen 99]:
M. A. Nielsen,
"Conditions for a class of entanglement transformations",
Phys. Rev. Lett. 83, 2, 436-439 (1999);
quant-ph/9811053.
- [Nielsen 00 a]:
M. A. Nielsen,
"Continuity bounds for entanglement",
Phys. Rev. A 61, 6, 064301 (2000);
quant-ph/9908086.
- [Nielsen 00 b]:
M. A. Nielsen,
"Probability distributions consistent with a mixed state",
Phys. Rev. A 62, 5, 052308 (2000);
quant-ph/9909020.
- [Nielsen 00 c]:
M. A. Nielsen,
"Introduction to quantum information theory",
quant-ph/0011064.
- [Nielsen-Chuang 00]:
M. A. Nielsen, & I. L. Chuang,
Quantum computation and quantum information,
Cambridge University Press, Cambridge, 2000.
Review: [Gudder 01 a], [James 01], [Lloyd 02 a],
[Grover 02 a].
- [Nielsen 01 a]:
M. A. Nielsen,
"Characterizing mixing and measurement in quantum mechanics",
Phys. Rev. A 63, 2, 022113 (2001);
quant-ph/0008073.
- [Nielsen-Kempe 01]:
M. A. Nielsen, & J. Kempe,
"Separable states are more disordered globally than locally",
Phys. Rev. Lett. 86, 22, 5184-5187 (2001);
quant-ph/0011117.
- [Nielsen-Vidal 01]:
M. A. Nielsen, & G. Vidal,
"Majorization and the interconversion of bipartite states",
Quantum Information and Computation 1, 1, 76-93 (2001).
- [Nielsen 01 b]:
M. A. Nielsen,
"On the units of bipartite entanglement:
Is sixteen ounces of entanglement always equal to one pound?",
in S. Popescu, N. Linden, & R. Jozsa (eds.),
J. Phys. A 34, 35
(Special issue: Quantum information and computation), 6987-6996 (2001);
quant-ph/0011063.
- [Nielsen-Bremner-Dodd-(+2) 02]:
M. A. Nielsen, M. J. Bremner, J. L. Dodd,
A. M. Childs, & C. M. Dawson,
"Universal simulation of Hamiltonian dynamics for quantum systems with
finite-dimensional state spaces",
Phys. Rev. A 66, 2, 022317 (2002);
quant-ph/0109064.
- [Nielsen 02 a]:
M. A. Nielsen,
"A simple formula for the average gate fidelity of a quantum dynamical operation",
Phys. Lett. A 303, 4, 249-252 (2002).
- [Nielsen 02 b]:
M. A. Nielsen,
"Rules for a complex quantum world",
Sci. Am. ?, 11, ?-? (2002);
Spanish version:
"Reglas para un mundo cuántico complejo",
Investigación y Ciencia 316, 44-53 (2003).
Reprinted in [Cabello 03 a], pp. 30-37.
- [Nielsen 03]:
M. A. Nielsen,
"Quantum computation by measurement and quantum memory",
Phys. Lett. A 308, 2-3, 96-100 (2003);
quant-ph/0108020.
- [Nielsen-Dawson-Dodd-(+6) 03]:
M. A. Nielsen, C. M. Dawson, J. L. Dodd,
A. Gilchrist, D. Mortimer, T. J. Osborne,
M. J. Bremner, A. W. Harrow, & A. Hines,
"Quantum dynamics as a physical resource",
Phys. Rev. A 67, 5, 052301 (2003).
- [Nikolic 01]:
H. Nikolic,
`Comment on "Classical interventions in quantum systems II.
Relativistic invariance" ',
Phys. Rev. A 64, 6, 066101 (2001);
quant-ph/0109120.
Comment on [Peres 00 c].
Reply: [Peres 01 b].
- [Nishimura-Ozawa 01]:
H. Nishimura, & M. Ozawa,
"Quantum subroutine problem and the robustness of quantum
complexity classes",
quant-ph/0107089.
- [Nishioka-Ishizuka-Hasegawa 01]:
T. Nishioka, H. Ishizuka, & T. Hasegawa,
"`Circular type' quantum key distribution",
quant-ph/0106083.
- [Niskanen-Nakahara-Salomaa 03]:
A. O. Niskanen, M. Nakahara, & M. M. Salomaa,
"Realization of arbitrary gates in holonomic quantum computation",
Phys. Rev. A 67, 1, 012319 (2003).
- [Niskanen-Vartiainen-Salomaa 03]:
A. O. Niskanen, J. J. Vartiainen, & M. M. Salomaa,
"Optimal multiqubit operations for Josephson charge qubits",
Phys. Rev. Lett. 90, 19, 197901 (2003).
- [Nisticò-Concetta Romania 94]:
G. Nisticò, & M. Concetta Romania,
"Knowledge about noncommuting quantum observables by means of
Einstein-Podolsky-Rosen correlations",
J. Math. Phys. 35, 9, 4534-4546 (1994).
- [Nisticò 97]:
G. Nisticò,
" `Counterfactual' interpretation of the quantum measurement process",
Found. Phys. Lett. 10, 4, 371-381 (1997).
- [Nisticò 99]:
G. Nisticò,
"Consistency conditions for probabilities of quantum histories",
Found. Phys. 29, 2, 221-240 (1999).
- [Nisticò 00]:
G. Nisticò,
`Efficacy of non-locality theorems "without inequalities"
for pairs of spin 1/2 particles',
quant-ph/0012012.
See [Nisticò 01].
- [Nisticò-Beneduci 01]:
G. Nisticò, & R. Beneduci,
"Individual consistency of 2-events quantum histories",
quant-ph/0101041.
- [Nisticò 01]:
G. Nisticò,
"Impossibility of Greenberger-Horne-Shimony-Zeilinger's
theorems for pairs of spin-1/2 particles",
Phys. Lett. A 281, 5-6, 273-277 (2001).
See [Nisticò 00].
- [Nisticò-Beneduci 02]:
G. Nisticò, & R. Beneduci,
"Self-decoherence criterion of consistency for quantum histories",
Phys. Lett. A 299, 5-6, 433-440 (2002).
- [Nisticò 03]:
G. Nisticò,
"Conceptual analysis of quantum history theory",
Phys. Essays 16, 1, ?-? (2003).
quant-ph/0310135.
- [Niu-Griffiths 98 a]:
C. Niu, & R. B. Griffiths,
"Optimal copying of one quantum bit",
Phys. Rev. A 58, 6, 4377-4393 (1998).
- [Niu-Griffiths 99]:
C. Niu, & R. B. Griffiths,
"Two-qubit copying machine for economical quantum eavesdropping",
Phys. Rev. A 60, 4, 2764-2776 (1999);
quant-ph/9810008.
- [Niwa-Matsumoto-Imai 99]:
J. Niwa, K. Matsumoto, & H. Imai,
"General-purpose parallel simulator for quantum computing",
Phys. Rev. A 66, 6, 062317 (2002).
- [del Noce 95]:
C. del Noce,
"An algorithm for finding Bell-type inequalities",
Found. Phys. Lett. 8, 3, 213-229 (1995).
- [Noel-Stroud 95]:
M. W. Noel, & C. R. Stroud, Jr.,
"Young's double-slit interferometrywithin an atom",
Phys. Rev. Lett. 75, 7, 1252-1255 (1995).
- [Nogami-Toyama-Dijk 00]:
Y. Nogami, F. M. Toyama, & W. van Dijk,
"Bohmian description of a decaying quantum system",
Phys. Lett. A 270, 6, 279-287 (2000);
quant-ph/0005109.
- [Nogueira-dos Aidos-Caldeira-Domingos 92]:
F. Nogueira, F. D. dos Aidos, M. H. Caldeira, & J. M. Domingos,
"Expectation values and non-commuting operators",
Eur. J. Phys. 13, 6, 284-285 (1992).
- [Nogueira-Walborn-Padua-Monken 02]:
W. A. T. Nogueira, S. P. Walborn, S. Padua, & C. H. Monken,
"Spatial antibunching of photons with parametric down-conversion",
Phys. Rev. A 66, 5, 053810 (2002).
- [Nogues-Rauschenbeutel-Osnaghi-(+3) 99]:
G. Nogues, A. Rauschenbeutel, S. Osnaghi,
M. Brune, J.-M. Raimond, & S. Haroche,
"Seeing a single photon without destroying it",
Nature 400, 6741, 239-242 (1999).
See [Grangier 99], [Physics World 99].
- [Nogues-Rauschenbeutel-Osnaghi-(+6) 00]:
G. Nogues, A. Rauschenbeutel, S. Osnaghi, P. Bertet, M. Brune,
J.-M. Raimond, S. Haroche, L. G. Lutterbach, & L. Davidovich,
"Measurement of a negative value for the Wigner
function of radiation",
Phys. Rev. A 62, 5, 054101 (2000).
- [Noh-Hong 98]:
T. G. Noh, & C. K. Hong,
"Interaction-free measurement based on nonclassical fourth-order interference",
Quantum Semiclass. Opt. 10, 4, 637-641 (1998).
- [Norris 00]:
C. Norris,
Quantum theory and the flight from realism,
Routledge, London, 2000.
- [Nowakowski 99]:
M. Nowakowski,
"Bell's locality condition confronting perfect
anti-correlations",
Phys. Lett. A 260, 3-4, 169-174 (1999).
- [Nuri 98]:
V. Z. Nuri,
"Local, deterministic hidden variable theories based on a loophole in
Bell's theorem",
quant-ph/9808008.
- [Nussinov 98]:
S. Nussinov,
"Realistic experiments for measuring the wave function of a single
particle",
Found. Phys. 28, 6, 865-880 (1998).
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