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Breaking news - scientific evidence for precognition.
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Jack Sarfatti This is, in my opinion, more unequivocal statistics evidence for Antony Valentini's "signal nonlocality" http://arxiv.org/abs/quant-ph/0203049 in strong violation of orthodox quantum theory's several no-entanglement signaling theorems in living matter. This backs up CIA-SRI precognitive remote viewing reports most notably published by Russell Targ. That is, the statistical predictions of orthodox quantum theory are violated in this data in which a non-random signal is detected from a future cause. The past effect and future cause are quantum entangled in time but we do not need a classical signal key to unlock the encrypted message from the future.

Begin forwarded message:

From: Dean Radin <dradin@noetic.org>
Subject: presentiment meta-analysis published
Date: October 18, 2012 1:31:10 AM GMT+01:00
To: JACK SARFATTI <sarfatti@pacbell.net>


Predictive physiological anticipation preceding seemingly unpredictable stimuli: a meta-analysis

Julia Mossbridge1*, Patrizio Tressoldi2 and Jessica Utts3
1Department of Psychology, Northwestern University, Evanston, IL, USA
2Dipartimento di Psicologia Generale, Università di Padova, Padova, Italy
3Department of Statistics, University of California, Irvine, CA, USA
This meta-analysis of 26 reports published between 1978 and 2010 tests an unusual hypothesis: for stimuli of two or more types that are presented in an order designed to be unpredictable and that produce different post-stimulus physiological activity, the direction of pre-stimulus physiological activity reflects the direction of post-stimulus physiological activity, resulting in an unexplained anticipatory effect. The reports we examined used one of two paradigms: (1) randomly ordered presentations of arousing vs. neutral stimuli, or (2) guessing tasks with feedback (correct vs. incorrect). Dependent variables included: electrodermal activity, heart rate, blood volume, pupil dilation, electroencephalographic activity, and blood oxygenation level dependent (BOLD) activity. To avoid including data hand-picked from multiple different analyses, no post hoc experiments were considered. The results reveal a significant overall effect with a small effect size [fixed effect: overall ES = 0.21, 95% CI = 0.15–0.27, z = 6.9, p < 2.7 × 10−12; random effects: overall (weighted) ES = 0.21, 95% CI = 0.13–0.29, z = 5.3, p < 5.7 × 10−8]. Higher quality experiments produced a quantitatively larger effect size and a greater level of significance than lower quality studies. The number of contrary unpublished reports that would be necessary to reduce the level of significance to chance (p > 0.05) was conservatively calculated to be 87 reports. We explore alternative explanations and examine the potential linkage between this unexplained anticipatory activity and other results demonstrating meaningful pre-stimulus activity preceding behaviorally relevant events. We conclude that to further examine this currently unexplained anticipatory activity, multiple replications arising from different laboratories using the same methods are necessary. The cause of this anticipatory activity, which undoubtedly lies within the realm of natural physical processes (as opposed to supernatural or paranormal ones), remains to be determined.

Wrong on last four words. The basic physics is understood.
Subquantum Information and Computation
Antony Valentini
(Submitted on 11 Mar 2002 (v1), last revised 12 Apr 2002 (this version, v2))
It is argued that immense physical resources - for nonlocal communication, espionage, and exponentially-fast computation - are hidden from us by quantum noise, and that this noise is not fundamental but merely a property of an equilibrium state in which the universe happens to be at the present time. It is suggested that 'non-quantum' or nonequilibrium matter might exist today in the form of relic particles from the early universe. We describe how such matter could be detected and put to practical use. Nonequilibrium matter could be used to send instantaneous signals, to violate the uncertainty principle, to distinguish non-orthogonal quantum states without disturbing them, to eavesdrop on quantum key distribution, and to outpace quantum computation (solving NP-complete problems in polynomial time).

Comments: 10 pages, Latex, no figures. To appear in 'Proceedings of the Second Winter Institute on Foundations of Quantum Theory and Quantum Optics: Quantum Information Processing', ed. R. Ghosh (Indian Academy of Science, Bangalore, 2002). Second version: shortened at editor's request; extra material on outpacing quantum computation (solving NP-complete problems in polynomial time)

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