Induced current and redefinition of electric and magnetic fields from non-compact Kaluza–Klein theory: An experimental signature of the fifth dimension

@article{Liko2005InducedCA,
  title={Induced current and redefinition of electric and magnetic fields from non-compact Kaluza–Klein theory: An experimental signature of the fifth dimension},
  author={Tom{\'a}{\vs} Liko},
  journal={Physics Letters B},
  year={2005},
  volume={617},
  pages={193-197}
}
9 Citations

Inducing charges and currents from extra dimensions

In a particular variant of Kaluza–Klein theory, the so-called induced-matter theory (IMT), it is shown that any configuration of matter may be geometrically induced from a five-dimensional vacuum

Seminal magnetic fields from inflato-electromagnetic inflation

We extend some previous attempts to explain the origin and evolution of primordial magnetic fields during inflation induced from a 5D vacuum. We show that the usual quantum fluctuations of a

Particle-antiparticle duality from an extra timelike dimension

It is a well known fact that the usual complex structure on the real Clifford Algebra (CA) of Minkowski spacetime can be obtained by adding an extra time-like dimension, instead of the usual

Kaluza–Klein theory as a dynamics in a dual geometry

It has been shown that the orbits of motion for a wide class of nonrelativistic Hamiltonian systems can be described as geodesic flow on a manifold and an associated dual. This method can be applied

Aspects of (4 + 4)-Kaluza–Klein type theory

We develop a type of Kaluza–Klein formalism in (4 + 4)-dimensions. In the framework of this formalism, we obtain a new kind of Schwarzschild metric solution that, via Kruskal–Szequeres, can be

$$4D$$4D Einstein equations in a $$5D$$5D general Kaluza–Klein space

Based on the new point of view on space–time–matter theory developed in our paper (Bejancu, Gen Rel Grav, 2013), we obtain the $$4D$$4D Einstein equations in a general $$5D$$5D Kaluza–Klein space

A 6D space framework for the description of distributed systems

TLDR
The aim was to compose and present a new differentiable and well-structured syntactic reference entity on the basis of a general 4D space-time system that is universally usable to describe the motion of a distributed concept, a model or a real entity.

Hamiltonian Map to Conformal Modification of Spacetime Metric: Kaluza-Klein and TeVeS

It has been shown that the orbits of motion for a wide class of non-relativistic Hamiltonian systems can be described as geodesic flows on a manifold and an associated dual by means of a conformal

References

SHOWING 1-10 OF 10 REFERENCES

Equations of Motion in Kaluza-Klein Gravity Revisited

We discuss the equations of motion of test particles for a version of Kaluza-Klein theory where the cylinder condition is not imposed. The metric tensor of the five-dimensional manifold is allowed to

THE EFFECTIVE ENERGY-MOMENTUM TENSOR IN KALUZA–KLEIN GRAVITY WITH LARGE EXTRA DIMENSIONS AND OFF-DIAGONAL METRICS

We consider a version of Kaluza–Klein theory where the cylinder condition is not imposed. The metric is allowed to have explicit dependence on the "extra" coordinate(s). This is the usual scenario in

Kaluza–Klein equations, Einstein’s equations, and an effective energy‐momentum tensor

Following earlier work, it is inquired how far the 5‐D Kaluza–Klein equations without sources may be reduced to the Einstein equations with sources. It is shown by algebraic means that this can be

Astrophysical implications of higher-dimensional gravity

We review the implications of modern higher-dimensional theories of gravity for astrophysics and cosmology. In particular, we discuss the latest developments of STM theory in connection with dark

An embedding for general relativity with variable rest mass

There is considerable interest currently in theories of gravity where rest masses vary slowly with time. A new theory of this type is proposed which is believed to be superior to others, and which

Quarks and Leptons: An Introductory Course in Modern Particle Physics

A pedogogical contribution which introduces the current experimental assault upon the nature of matter and provides an appreciation of contemporary theoretical speculations. Quarks and leptons are

Quantum Field Theory of Point Particles and Strings

Point Particles * Introduction: Phenomenology Overview * First to Second Quantization * Free Scalar Field Theory * Free Spinor Field Theory * Quantization of the Electromagnetic Field *

String theory.

TLDR
The current “standard model” of particle physics—which is nearly 25 years old, has much experimental evidence in its favor and is comprised of six quarks, six leptons, four forces, and the as yet unobserved Higgs boson—contains internal indications that it, too, may be just another step along the path toward uncovering the truly fundamental degrees of freedom.

Quarks and Leptons: An Introductory Course in Modern Particle Physics

Francis Halzen and Alan D Martin 1984 Chichester: John Wiley xvi + 396 pp price £23.95 ISBN 0 471 88741 2 It is interesting to conjecture the part that fashion plays in the choice of topics for

PolchinskiJ String Theory , Cam bridgeUniversity Press , Cam bridge ( 1998 ) . [ 3 ] W esson P S \ An em bedding forgeneralrelativity with variable restm ass

  • Gen . Rel . Grav .
  • 1992