Afanas'ev, Sergei. "Space-time Discretization: The
Way to the Fundamental Element Without a Determined Form." arXiv
(12/1/00).
http://xxx.lanl.gov/abs/hep-th/0011291
The random discretization of the space-time is suggested as a way to consistent
compatible synthesis of quantum and relativistic principles and principle of
geometrization. Physical reality of the finite sizes as fundamental element
of the quantized space-time. In this concept the "particle" quanta
and the space-time quanta are identical.
Kirilyuk, Andrei P. "75 Years of Matter Wave: Louis De Broglie and Renaissance
of the Causally Complete Knowledge." arXiv (11/25/99).
http://xxx.lanl.gov/abs/quant-ph/9911107
Claims that an approach of the 'quantum field mechanics' created recently with
the 'science of complexity' and the related 'dynamic redundance paradigm' leads
to confirmation and natural completion of unreduced de Broglie's results eliminating
all their 'difficult points' and reconstituting the causally complete, totally
adequate and naturally unified picture of objective reality directly extendible
to all higher levels of the complex world dynamics.
Ono, Toshihiko. "Structure Behind Mechanics." arXiv (9/8/99).
http://xxx.lanl.gov/abs/quant-ph/9906130
This paper proposes a basic theory on physical reality, and a new foundation
for quantum mechanics and classical mechanics. It compares the new theory with
the known quantization methods, and proposes a self-consistent interpretation
for quantum mechanics.
Ostoma, Tom, Mike Trushyk. "What are the Hidden Quantum Processes Behind
Newton's Laws?" arXiv (4/19/99).
http://xxx.lanl.gov/abs/physics/9904036
The authors investigate the hidden quantum processes that are resonsible for
Newton's laws of motion and Newton's universal law of gravity.
Shi, Yu. "Non-partial Reality." arXiv (5/27/97).
http://xxx.lanl.gov/abs/quant-ph/9705047
Study on pre- and postselected quantum system indicates that "product rule"
and "sum rule" for elements of reality should be abandoned. The author
shows that this so-called non-partial realism can refute arguments against hidden
variables in a unified way, and might save local realism.
Snyder, D. M. "On the Conservation of Physical Quantities." arXiv
(11/10/99).
http://xxx.lanl.gov/abs/physics/9911013
Certain transformations of isolated physical systems underlying various conservation
laws in physics are noted. The author claims that conservation laws based on
the transformations are theoretical or mental in nature to the same extent that
they are physical. When one of the conservation principles noted is tested by
carrying out the relevant transformation on the system, this test is essentially
one of the influence of mental activity on physical reality.