Aharonov, Yakir, Lev Vaidman. "Measurement of the
Schrödinger Wave of a Single Particle." arXiv (4/28/93).
http://xxx.lanl.gov/abs/hep-th/9304147
The authors suggest that it is possible to measure Schrödinger wave of a single
quantum system. This provides a strong argument for associating physical reality
with the quantum state of a single system, and challenges the usual assumption
that the quantum state has physical meaning only for an ensemble of identical
systems.
Bassi, Angelo, GianCarlo Ghirardi. "Can the Decoherent
Histories Description of Reality Be Considered Satisfactory?" arXiv
(7/14/99).
http://xxx.lanl.gov/abs/gr-qc/9811050
Discusses some features of the Decoherent Histories approach.
Berg, Bernd A. "Quantum Theory and Spacelike Measurements." arXiv
(1/4/98).
http://xxx.lanl.gov/abs/quant-ph/9801003
An ontological view of quantum theory faces difficulties when spacelike measurements
on entangled states have to be described, because time ordering of spacelike
events can change under Lorentz-Poincaré transformations.
Bläsi, Benedikt, Lucien Hardy. "Realism and Time
Symmetry in Quantum Mechanics." arXiv (9/6/95).
http://xxx.lanl.gov/abs/quant-ph/9505017
Brun, Todd A. "Decoherence and Consistent Histories Reference List."
(8/7/01).
http://www.sns.ias.edu/~tbrun/Data/decoherence_list.html
This is a long bibliography on the topic, with many of the citations linked
to Internet sources.
D'Espagnat, Bernard. "Quantum Theory: A Pointer to an Independent Reality."
arXiv (5/10/98).
http://xxx.lanl.gov/abs/quant-ph/9802046
Deutsch, David. "The Structure of the Multiverse".
http://xxx.lanl.gov/abs/quant-ph/0104033
The structure of the multiverse is determined by information flow.
Goldstein, Sheldon. "Bohmian Mechanics and the Quantum Revolution."
arXiv (12/26/95).
http://xxx.lanl.gov/abs/quant-ph/9512027
Goldstein, Sheldon, Joel L. Lebowitc. "Does the Wave Function Provide
a Complete Description of Physical Reality?" arXiv (12/28/95).
http://xxx.lanl.gov/abs/quant-ph/9512028
Herbut, F. "Is Quantum Decoherence Reality or Appearance?" arXiv
(7/7/01).
http://xxx.lanl.gov/abs/quant-ph/0107044
Kirilyuk, Andrei P. "New Concept of Dynamic Complexity in Quantum Mechanics
and Beyond." arXiv (5/26/98).
http://xxx.lanl.gov/abs/quant-ph/9805078
Leifer, Peter. "Superrelativity as a unification of quantum theory and
relativity." arXiv (10/20/96).
http://xxx.lanl.gov/abs/quant-ph/9610030
Principle of "Superrelativity'' has been proposed in order to avoid the
contradiction between principle of relativity and foundations of quantum theory.
Solutions of a newly derived non-linear Klein-Gordon equation presumably may
be treated as primordial nonlocal elements of quantum theory.
Mermin, N. David. "What Is Quantum Mechanics Trying
to Tell Us?" arXiv (9/2/98).
http://xxx.lanl.gov/abs/quant-ph/9801057
Nicolescu, Basarab. "Levels of Reality as Source
of Quantum Indeterminacy." arXiv (12/1/00).
http://xxx.lanl.gov/abs/quant-ph/0012007
Author claims that the notion of "Levels of Reality" introduced by
Werner Heisenberg in his "Manuscript of 1942" and the author's own
could explain the quantum indeterminacy.
Plaga, R. "An Extension of "Popper's experiment" can test interpretations
of quantum mechanics." arXiv (10/6/00).
http://xxx.lanl.gov/abs/quant-ph/0010030
Srikanth, R. "Physical Reality and the Complementarity Principle."
arXiv (5/15/01).
http://xxx.lanl.gov/abs/quant-ph/0102009
Claims that the uncertainty in the incoming wave, responsible for its interference,
translates during measurement into uncertainty at the measuring apparatus. Suggests
an information theoretic interpretation of quantum mechanics.
Tegmark, Max, John Archibald Wheeler. "100 Years of the Quantum."
arXiv (1/17/01).
http://ttt.lanl.gov/pdf/quant-ph/0101077
This article reviews both the successes of quantum theory and the ongoing debate about its consequences for issues ranging from quantum computation to consciousness, parallel universes and the nature of physical reality.
Unruh, W. G. "The Reality and Measurement of the Wavefunction." arXiv
(8/12/93).
http://xxx.lanl.gov/abs/hep-th/9308061
Using a simple version of the model for the quantum measurement of a two level
system, the contention of Aharonov, Anandan, and Vaidman that one must in certain
circumstances give the wavefunction an ontological as well as an epistemological
significance is examined.
Wharton, William R. "Backward Causation and the EPR Paradox." arXiv
(10/21/98).
http://xxx.lanl.gov/abs/quant-ph/9810060
Backward causation in which future events affect the past is formalized in a
way consistent with Special Relativity and shown to restore locality to nonrelativistic
quantum mechanics. Author contends that Quantum Mechanics has the right properties
to allow for backward causation.