Characterisation of anomalous forces on asymmetric high‐voltage capacitors

Porcelli, Elio B.; Filho, Victo dos Santos

doi:10.1049/iet-smt.2015.0250

Cited by 17 publications

(35 citation statements)

References 14 publications

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“…The anomalous forces that appear are very weak, as verified in the works cited above and also in our earlier works [19][20][21]. The weakness of the anomalous force was observed even in the experiments with very higher voltages up to 100 kV, reported in Ref.…”

Section: Fig 1: Scheme Of (A) Symmetrical and (B) Asymmetrical Capacsupporting

confidence: 62%

Anomalous Effects from Dipole-Environment Quantum Entanglement

Porcelli¹,

Filho²

2016

IJAERS

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Section: Fig 1: Scheme Of (A) Symmetrical and (B) Asymmetrical Capacsupporting

confidence: 62%

Anomalous Effects from Dipole-Environment Quantum Entanglement

Porcelli¹,

Filho²

2016

IJAERS

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“…Such an induction is related to the wide quantum coupling among the particles predicted by the Generalized Quantum Entanglement (GQE) framework. Such an anomalous effect has a similar counterpart in the case of capacitors under high vol-Journal of Power and Energy Engineering tage [10] [11] [12]. Such an anomaly verified in other physical systems also has no traditional explanation and the GQE framework can also explain it, as reported in the literature [10] [11] [12].…”

Section: Introductionsupporting

confidence: 48%

“…Such an anomaly verified in other physical systems also has no traditional explanation and the GQE framework can also explain it, as reported in the literature [10] [11] [12]. Equivalent effects explainable by this theory are Biefeld-Brown effect [16] [17] in symmetrical capacitors [10] [11] and in asymmetrical capacitors [12], anomalous forces produced by magnetic cores [13], induced forces at distance by semiconductor laser diodes [14] and anomalous forces generated by superconductors [15]. In the latter case, it has been reported in some works that superconductor materials operating under high external fields and or rotation produce motion in external objects as, for instance, in a simple pendulum [18] [19] [20].…”

Section: Introductionmentioning

confidence: 51%

“…Such an anomalous effect has a similar counterpart in the case of capacitors under high vol-Journal of Power and Energy Engineering tage [10] [11] [12]. Such an anomaly verified in other physical systems also has no traditional explanation and the GQE framework can also explain it, as reported in the literature [10] [11] [12]. Equivalent effects explainable by this theory are Biefeld-Brown effect [16] [17] in symmetrical capacitors [10] [11] and in asymmetrical capacitors [12], anomalous forces produced by magnetic cores [13], induced forces at distance by semiconductor laser diodes [14] and anomalous forces generated by superconductors [15].…”

Section: Introductionmentioning

confidence: 99%

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Induction of Forces at Distance Performed by Piezoelectric Materials

Porcelli¹,

Filho²

2018

JPEE

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We describe the phenomenon of generation of an external field of forces from piezoelectric materials subjected to the application of electric fields or mechanical stress. We show that piezoelectric materials are capable of producing nonlocal forces of induction in external objects and we conclude that the nature of the forces generated is not originated from traditional interactions. Further we specifically assert that the generation of forces by the piezoelectric materials is ruled by the hypothesis of preexisting condition of generalized quantum entanglement between the molecular structure of the material bulk and the surrounding environment. In addition, the widely spread coupling of the molecules with the environment can be manifested from the so-called direct effect or the converse effect in piezoelectric materials and this coupling is not intermediated by acoustic waves or electromagnetic fields. We show that the novel effect has a theoretical explanation consistent with the generalized quantum entanglement framework and the direction of the induced forces depends on either the direction of the mechanical force or the electric field applied in these materials.

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“…In general lines, our approach consists in considering valid the connection between quantum microscopic quantities and macroscopic observables, based on the theoretical framework of GQE state, as already proposed in recent studies considering other anomalous effects in capacitors [40][41][42], magnetic cores [43], piezoelectric materials [44] and semiconductors laser diodes [45]. It is relevant to emphasize that such a macro-entanglement state can only take place under very special or circumstances or extreme physical conditions, as in the cases of high voltages or high powers applied to the devices, as presented in the cited experiments.…”

Section: Introductionmentioning

confidence: 99%

Theoretical Study of Anomalous Forces Externally Induced by Superconductors

Porcelli¹,

Filho²

2017

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In this work we present a theoretical explanation for the possible anomalous forces induced by superconducting disks and toroids, based on the hypothesis of a preexisting state of generalized quantum entanglement that can produce momentum variation exchanged between Cooper pairs and outer particles. Considering the immense amount of particles involved in the phenomenon as coherent Cooper pairs, and indications of previous studies, we use classical quantities as macroscopic observables in our calculations. We here analyzed the behavior of such superconductors and compared the experimental results early obtained in the literature with our theoretical proposal. We found that the theoretical calculations agreed with very good accuracy for two different experiments and devices. The present work really highlights the possibility of superconducting materials to be applied to induce outer forces in the environment and in external objects, as explained by our theoretical model.

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Characterisation of anomalous forces on asymmetric high‐voltage capacitors

Cited by 17 publications

References 14 publications

Anomalous Effects from Dipole-Environment Quantum Entanglement

Anomalous Effects from Dipole-Environment Quantum Entanglement

Induction of Forces at Distance Performed by Piezoelectric Materials

Theoretical Study of Anomalous Forces Externally Induced by Superconductors

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