DOI: 10.14704/nq.2017.15.3.1063

The Physics of Mind-Matter Interaction at a Distance

Luciano Pederzoli, William Giroldini, Elena Prati, Patrizio Tressoldi


The aim of this work is identification and localisation of the interaction between mind and matter, specifically with respect to random number generators, and identification of the type of energy that can alter the degree of randomness of bit-string outputs of these electronic devices. Regarding localisation of the mind/random-number-generator interaction, we believe it occurs through the production of electron+gap pairs in the inversely polarised P-N junction of the Zener diode that is used as a white noise generator, with resulting peaks of non-random current. Conversely, regarding the type of energy acting on the analogue signal, we believe it is made of photons of wavelength ranging from 0.2 to 1.1 μm, each therefore carrying an energy of between 6.2 and 1.14 eV. The most controversial part concerns the means by which the human mind can produce this type of energy from a distance to act directly on a chosen target, in that it is not possible for it to have been emitted by either the body or brain as biophotons.


Mind-Matter Interaction; Biophotons; Photons-Electrons Interaction; Entanglement

Full Text:



Bókkon I, Salari V, Tuszynski JA, Antal I. Estimation of the number of biophotons involved in the visual perception of a single-object image: Biophoton intensity can be considerably higher inside cells than outside. Journal of Photochemistry and Photobiology B: Biology 2010;100(3):160-6.

Bösch H, Steinkamp F, Boller E. Examining psychokinesis: The interaction of human intention with random number generators:A meta-analysis. Psychological Bulletin 2006;132(4):497–523.

Jung H-H, Yang J-M, Woo W-M, Choi C, Yang J-S, Soh K-S. Year-long biophoton measurements: normalized frequency count analysis and seasonal dependency. Journal of Photochemistry and Photobiology B: Biology 2005;78(2):149-54

Kugel W. A Faulty PK Meta-Analysis. Journal of Scientific Exploration 2011;25(1):47–62.

Radin D, Nelson R, Dobyns Y, Houtkooper J. Reexamining psychokinesis: Comment on Bösch, Steinkamp, and Boller (2006). Psychology Bulletin 2006;132(4):529–32.

Sun Y, Wang C, Dai J. Biophotons as neural communication signals demonstrated by in situ biophoton autography. Photochemical & Photobiological Sciences 2010; 9: 315-22.

Tressoldi P, Pederzoli L, Matteoli M, Prati E, Kruth JG. Can Our Minds Emit Light at 7300 km Distance? A Pre-Registered Confirmatory Experiment of Mental Entanglement with a Photomultiplier. NeuroQuantology 2016;14(3):447–55.

Tressoldi PE, Pederzoli L, Caini P, Ferrini A, Melloni S, Richeldi D, Richeldi F, Duma GM. Mind-Matter Interaction at a Distance of 190 km: Effects on a Random Event Generator Using a Cutoff Method. NeuroQuantology 2014;12(3):337–43.

Van Wijk R, Van Wijk EPA, van Wietmarschen HA, Greef J van der. Towards whole-body ultra-weak photon counting and imaging with a focus on human beings: A review. Journal of Photochemistry and Photobiology B: Biology 2014;139:39-46

Varvoglis M, Bancel PA. Micro-Psychokinesis: Exceptional or Universal? Journal of Parapsychology 2016;80(1):37–44.

Walach H, Tressoldi P, Pederzoli L. Mental, behavioural and physiological nonlocal correlations within the Generalized Quantum Theory framework. Axiomathes 2016;26(3):313-28.

Supporting Agencies

Dipartimento di Psicologia Generale, Università di Padova; EvanLab Firenze

| NeuroScience + QuantumPhysics> NeuroQuantology :: Copyright 2001-2017