The Concept of Complementarity and its Role in Quantum Entanglement and Generalized Entanglement

Hinterberger, Thilo; Stillfried, Nikolaus von

doi:10.1007/s10516-012-9187-y

Cited by 7 publications

(3 citation statements)

References 49 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A new proposal in this paper is to define the bioenergetic field of a living entity as the bodyrelated component of its individual Information Field. The individual Information Field is proposed to be defined as the complete information contained in the holistic sum of its generalized quantum entanglements (Hintergerberet al, 2012 (28)). (Atmanspacher, Römer, Wallach 2002 (29); Wallach 2005 ( 30)) The bioenergetic field communicates to the electrical and electromagnetic levels of the body by related quantum processes.…”

Section: The Addition Of Wholeness To Fully Local and Analytic Modelsmentioning

confidence: 99%

Quantum Entangled Frequencies and Coherence in Bioenergetic Systems

Schmieke¹

2021

Dev Sanskriti Interdis Internat J

View full text Add to dashboard Cite

Holistic Health can be understood as the coherence of the human being as a whole including his organism, mind, and relationship to his environment. Quantum entanglement of subsystems on all levels of the human being is responsible for the wholeness of the living entity. The sum total of entanglements is defined here as an individual Information Field which corresponds to the ancient vedic concept of akasha. Entangled frequencies might be able to resonate with and influence human bioenergetic processes and systems with the aim of creating coherence of the bioenergetic system, both within the individual and between the individual and the surrounding fields. Here a bioenergetic process is proposed that uses entangled frequencies to increase the coherence of living systems selected through biofeedback of a Quantum Noise Generator, which seems to be correlated to the ancient vedic concept of prana. It has been tested in a controlled observation study for its effect on the sense of coherence of 3545 participants. The promising results of this study are additionally presented here.

show abstract

Section: The Addition Of Wholeness To Fully Local and Analytic Modelsmentioning

confidence: 99%

Quantum Entangled Frequencies and Coherence in Bioenergetic Systems

Schmieke¹

2021

Dev Sanskriti Interdis Internat J

View full text Add to dashboard Cite

show abstract

“…Bohr, however, did not use non-mathematical language in a disciplined, precise or rigorous way. For example, what Bohr meant by "complementarity" is the subject of ongoing debate [22, § 4.6.3] [399][400][401][402][403]. Three aspects of Bohr's approach were, however, clear.…”

Section: Bohr: Is a Theory More Descriptive Than Quantum Mechanics Pomentioning

confidence: 99%

Understanding quantum mechanics: a review and synthesis in precise language

Drummond¹

2019

Open Physics

View full text Add to dashboard Cite

This review, of the understanding of quantum mechanics, is broad in scope, and aims to reflect enough of the literature to be representative of the current state of the subject. To enhance clarity, the main findings are presented in the form of a coherent synthesis of the reviewed sources. The review highlights core characteristics of quantum mechanics. One is statistical balance in the collective response of an ensemble of identically prepared systems, to differing measurement types. Another is that states are mathematical terms prescribing probability aspects of future events, relating to an ensemble of systems, in various situations. These characteristics then yield helpful insights on entanglement, measurement, and widely-discussed experiments and analyses. The review concludes by considering how these insights are supported, illustrated and developed by some specific approaches to understanding quantum mechanics. The review uses non-mathematical language precisely (terms defined) and rigorously (consistent meanings), and uses only such language. A theory more descriptive of independent reality than is quantum mechanics may yet be possible. One step in the pursuit of such a theory is to reach greater consensus on how to understand quantum mechanics. This review aims to contribute to achieving that greater consensus, and so to that pursuit.

show abstract

“…Phenomena like quantum teleportation [8] and superdense coding [9], which are not observed in the classical domain, rely heavily on the nonlocality feature of quantum mechanics. It is understood that nonlocality arises between events in subsystems which are not precisely predictable while at the same time bounded by a welldefined variable of the whole system which they collectively constitute [10]. If events cannot be predicted precisely in quantum mechanics means there is complementarity among some observables.…”

Section: Introductionmentioning

confidence: 99%

Nonlocality as a consequence of complementarity

Wang,

Kumar,

2016

Preprint

View full text Add to dashboard Cite

show abstract

The Concept of Complementarity and its Role in Quantum Entanglement and Generalized Entanglement

Cited by 7 publications

References 49 publications

Quantum Entangled Frequencies and Coherence in Bioenergetic Systems

Quantum Entangled Frequencies and Coherence in Bioenergetic Systems

Understanding quantum mechanics: a review and synthesis in precise language

Nonlocality as a consequence of complementarity

Contact Info

Product

Resources

About