Experimental Verification of Anomalous Forces on Shielded Symmetrical Capacitors

Porcelli, Elio B.; Alves, Omar R.; Filho, Victo S.

doi:10.5539/apr.v12n2p33

Cited by 5 publications

(2 citation statements)

References 28 publications

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“…In order to experimentally investigate the existence of such an effect in devices operating in rotation, we decided to establish a new experimental setup involving a rotor but considering a new physical configuration. As in our earlier works, we realized that magnetic dipoles and electric dipoles can both present such anomalies in the context of the generalized quantum entanglement (GQE), we implemented to perform some measurements of anomalous forces for a electrostatic material because in some of our previous works [18][19][20][21][22] we verified strong magnitudes of forces involving this kind of material subjected to high voltage.The effect detected in the gyroscopes cannot be successfully associated to any conventional theory. So, we elaborated the theoretical description of such forces in the experiments by means of a theoretical model based on GQE, by considering as quantum witnesses the electric permittivity and as macroscopic observable the angular momentum of the dielectric rotors.…”

Section: Introductionmentioning

confidence: 92%

“…So, we elaborated the theoretical description of such forces in the experiments by means of a theoretical model based on GQE, by considering as quantum witnesses the electric permittivity and as macroscopic observable the angular momentum of the dielectric rotors. The basic conjecture relies on that macroscopic observables can present influence in their magnitudes by a huge collection of microscopic particles (as the magnetic dipoles in rotors of gyroscopes) has been checked in a lot of physical systems and presented consistency with experiments, as capacitors [18][19][20][21], magnetic cores [23], superconductors [24,25], laser diodes [26], piezoelectric devices [27][28][29] and electromagnetic drives [22,30]. Based on that idea, we conceived an analogue to the gyroscope described in Ref.…”

Section: Introductionmentioning

confidence: 99%

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Characterization of Anomalous Forces in Dielectric Rotors

Porcelli¹,

Filho²

2020

Preprint

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We performed several measurements of anomalous forces on a dielectric rotor in operation, subjected to high voltage. The device operated under constant and intense angular velocity for each high voltage applied. The measurements were made in the similar way than an analogue magnetic gyroscope, by considering clockwise and counterclockwise rotations. We found that there are significant weight reduction on the device in the clockwise case, with one order of magnitude higher than the magnetic case. In addition, we detected a similar asymmetry in the observation of the effect, that is, there are smaller results for the anomalous forces in counterclockwise rotation. We also propose a theoretical model to explain the quantitative effect based on average values of macroscopic observables of the device rotation and concluded that it is consistent with the experimental results.

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Section: Introductionmentioning

confidence: 92%

Section: Introductionmentioning

confidence: 99%

Characterization of Anomalous Forces in Dielectric Rotors

Porcelli¹,

Filho²

2020

Preprint

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Detection of preexisting quantum entanglements between dipole–photon discrete observables

Porcelli,

Alves,

Filho

2023

Opt Quant Electron

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We performed measurements of laser beam power polarized in different angles as 0$$^\circ $$ ∘ , 45$$^\circ $$ ∘ and 90$$^\circ $$ ∘ passing close to a symmetric shielded capacitor with parallel plates and through a polaroid filter configured with angles as 0$$^\circ $$ ∘ , 45$$^\circ $$ ∘ and 90$$^\circ $$ ∘ . An unusual light power variation was detected during the charging and discharging of the high voltage capacitor even considering the suppression of known electromagnetic interaction between laser beam and capacitor. The light power variation curves also indicated a typical pattern of charge and discharge of capacitors. The combination of the angles of the laser beam polarization and polaroid filter surprisingly indicated the measurement of correlations between the polarizations of photons and electric dipoles of the capacitor dielectric. These novel results can only be explained supposing the preexisting condition of quantum entanglements between discrete observables of electric dipoles and photons.

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Laser-induced weight variation of liquids and solids

Porcelli,

dos Santos Filho

2023

AIP Advances

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We performed measurements of weight in transparent materials such as liquid water, ice, and a quartz crystal when they are beamed by a laser. We detected weight variations in all cases of these materials, with magnitudes of the order of tenths to hundreds of milligrams of force. The highest value obtained was for ice, and the most interesting effect was the clear variation in weight that occurred for beams in both vertical or horizontal directions. Such a phenomenon cannot be caused by radiation pressure, reaction by vaporization, ejection of matter by heating, or piezoelectricity. The experimental results are also in accordance with the theoretical forecast proposed in our previous studies where the variation in the weight can be explained by the reaction force of the myriad of electric dipoles of the transparent dielectric previously entangled with the external environment when polarized to the component of the electric field of the propagating laser light. This new and surprising effect can be exploited to reach significant values so that it has future applications related to propulsion without fuel in aerospace or aquatic vehicles.

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Experimental Verification of Anomalous Forces on Shielded Symmetrical Capacitors

Cited by 5 publications

References 28 publications

Characterization of Anomalous Forces in Dielectric Rotors

Characterization of Anomalous Forces in Dielectric Rotors

Detection of preexisting quantum entanglements between dipole–photon discrete observables

Laser-induced weight variation of liquids and solids

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