Nonequilibrium, weak-field-induced cyclotron motion: A mechanism for magnetobiology

We report test results searching for an effect of electrostatic charge on weight. For conducting test objects of mass of order 1 kg, we found no effect on weight, for potentials ranging from 10 V to 200 kV, corresponding to charge states ranging from 10−9 to over 10−5 coulombs, and for both polarities, to within a measurement precision of 2 g. While such a result may not be unexpected, this is the first unipolar, high-voltage, meter-scale, static test for electro-gravitic effects reported in the literature. Our investigation was motivated by the search for possible coupling to a long-range scalar field that could surround the planet, yet go otherwise undetected. The large buoyancy force predicted within the classical Kaluza theory involving a long-range scalar field is falsified by our results, and this appears to be the first such experimental test of the classical Kaluza theory in the weak field regime, where it was otherwise thought identical with known physics. A parameterization is suggested to organize the variety of electro-gravitic experiment designs.

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Weak-field dissipative conductivity of a dirty superconductor with Dynes subgap states under a dc bias current up to the depairing current density

Physical Review Research ◽

10.1103/physrevresearch.2.013302 ◽

2020 ◽

Vol 2 (1) ◽

Cited By ~ 3

Author(s):

Takayuki Kubo

Keyword(s):

Current Density ◽

Weak Field ◽

Bias Current ◽

Dc Bias

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On Weak-Field (One-Photon) Coherent Control of Photoisomerization

The Journal of Physical Chemistry Letters ◽

10.1021/acs.jpclett.0c02273 ◽

2020 ◽

Vol 11 (20) ◽

pp. 8470-8476

Author(s):

Diptesh Dey ◽

Niels E. Henriksen

Keyword(s):

Coherent Control ◽

Weak Field

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PRESENT STATUS OF THE STUDY OF THE ANOMALOUS ACCELERATION OF THE PIONEER 10/11 SPACECRAFT

International Journal of Modern Physics A ◽

10.1142/s0217751x05024535 ◽

2005 ◽

Vol 20 (11) ◽

pp. 2304-2308 ◽

Cited By ~ 1

Author(s):

J. P. MBELEK

Keyword(s):

Weak Field ◽

Low Velocity ◽

Pioneer Anomaly ◽

Real Change ◽

Local Manifestation ◽

Anomalous Acceleration ◽

Expansion Of The Universe ◽

The Universe ◽

Pioneer 10 ◽

Radiometric Data

Results from an almost twenty years study of radiometric data from Pioneer 10/11, Galileo and Ulysses spacecraft indicate an anomalous time depending blueshift1, 2 which bares hardly prosaic explanations. Local manifestation of the expansion of the universe or new force terms are not favored either by the observational data. So, we explore the possibility that the reported anomaly, referred to as the "Pioneer anomaly", does not result from a real change in velocity. It turns out that the main Pioneer anomaly may be looked at as a new validation of general relativity (GR) in the weak field and low velocity limit on account of the "machian" behavior of quintessence like dark energy.

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Weak‐field magnetoresistance symmetry in epitaxial films and bulk crystals ofp‐type SnTe

Journal of Applied Physics ◽

10.1063/1.325500 ◽

1978 ◽

Vol 49 (8) ◽

pp. 4442-4445 ◽

Cited By ~ 11

Author(s):

R. S. Allgaier ◽

Bland Houston ◽

J. B. Restorff

Keyword(s):

Weak Field ◽

Epitaxial Films ◽

Bulk Crystals

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A New Family of Anionic FeIII Spin Crossover Complexes Featuring a Weak-Field N2 O4 Coordination Octahedron

Chemistry - A European Journal ◽

10.1002/chem.201504883 ◽

2015 ◽

Vol 22 (4) ◽

pp. 1253-1257 ◽

Cited By ~ 23

Author(s):

Kazuyuki Takahashi ◽

Kiko Kawamukai ◽

Mitsunobu Okai ◽

Tomoyuki Mochida ◽

Takahiro Sakurai ◽

...

Keyword(s):

Spin Crossover ◽

Weak Field ◽

New Family ◽

Spin Crossover Complexes

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Calculated ro-vibrational fine-structure spectrum and weak-field zeeman splittings of the O2Ar van der Waals molecule

Chemical Physics ◽

10.1016/0301-0104(83)85032-0 ◽

1983 ◽

Vol 76 (2) ◽

pp. 195-202 ◽

Cited By ~ 22

Author(s):

Jonathan Tennyson ◽

Jacques Mettes

Keyword(s):

Fine Structure ◽

Van Der Waals ◽

Weak Field ◽

Fine Structure Spectrum ◽

Structure Spectrum

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The Einstein–Maxwell-particle system in the York canonical basis of ADM tetrad gravity. Part 2. The weak field approximation in the 3-orthogonal gauges and Hamiltonian post-minkowskian gravity: the N-body problem and gravitational waves with asymptotic background 1This paper is one of three companion papers published in the same issue of Can. J. Phys.

Canadian Journal of Physics ◽

10.1139/p11-101 ◽

2012 ◽

Vol 90 (11) ◽

pp. 1077-1130 ◽

Cited By ~ 11

Author(s):

David Alba ◽

Luca Lusanna

Keyword(s):

Electromagnetic Field ◽

Gravitational Waves ◽

Particle System ◽

Canonical Basis ◽

Field Approximation ◽

Weak Field ◽

N Body Problem ◽

Hamilton Equations ◽

Weak Field Approximation ◽

Tetrad Gravity

In this second paper we define a post-minkowskian (PM) weak field approximation leading to a linearization of the Hamilton equations of Arnowitt–Deser–Misner (ADM) tetrad gravity in the York canonical basis in a family of nonharmonic 3-orthogonal Schwinger time gauges. The York time 3K (the relativistic inertial gauge variable, not existing in newtonian gravity, parametrizing the family, and connected to the freedom in clock synchronization, i.e., to the definition of the the shape of the instantaneous 3-spaces) is set equal to an arbitrary numerical function. The matter are considered point particles, with a Grassmann regularization of self-energies, and the electromagnetic field in the radiation gauge: an ultraviolet cutoff allows a consistent linearization, which is shown to be the lowest order of a hamiltonian PM expansion. We solve the constraints and the Hamilton equations for the tidal variables and we find PM gravitational waves with asymptotic background (and the correct quadrupole emission formula) propagating on dynamically determined non-euclidean 3-spaces. The conserved ADM energy and the Grassmann regularization of self-energies imply the correct energy balance. A generalized transverse–traceless gauge can be identified and the main tools for the detection of gravitational waves are reproduced in these nonharmonic gauges. In conclusion, we get a PM solution for the gravitational field and we identify a class of PM Einstein space–times, which will be studied in more detail in a third paper together with the PM equations of motion for the particles and their post-newtonian expansion (but in the absence of the electromagnetic field). Finally we make a discussion on the gauge problem in general relativity to understand which type of experimental observations may lead to a preferred choice for the inertial gauge variable 3K in PM space–times. In the third paper we will show that this choice is connected with the problem of dark matter.

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