Add to ORKGA covariant criterion for the emission of Cherenkov radiation in the field of a nonlinear gravitational wave is considered within the framework of exact integrable models of particle dynamics and electromagnetic wave propagation. It is shown that a vacuum interacting with curvature can give rise to Cherenkov radiation. The conically shaped spatial distribution of radiation is derived and its basic properties are discussed
A range of novel ideas, covering both general relativity and quantum field theory are introduced and...
We demonstrate a simple, fully analytic method of calculating the amount of radiation emitted by opt...
We analyze the electromagnetic field of a charged particle that uniformly moves in a circular wavegu...
A covariant criterion for the emission of Cherenkov radiation in the field of a nonlinear gravitatio...
The simplest way to modify gravity is to extend the gravitational sector to include an additional sc...
This work reviews our current understanding of Cherenkov-type processes in vacuum that may occur due...
The possibility that a charged particle propagating in a gravitational field described by Brans-Dick...
Cherenkov radiation may occur whenever the source is moving faster than the waves it generates. In a...
Electromagnetic processes associated with a charged particle moving in a strong circular magnetic fi...
We investigate gravitational Cherenkov radiation in a healthy branch of background solutions in the ...
The possibility that a charged particle propagating in a gravitational field described by Brans-Dick...
The exact solutions of the problems of propagation of electromagnetic and massive vector fields in t...
We develop a new approach to local nonlinear effects in cosmic microwave background anisotropies, an...
We analyze the electromagnetic field of a charged particle moving uniformly in a circular waveguide ...
ABSTRACT: Instead of the Big Bang model, which considers the cosmic background radiation (CBR) as t...
A range of novel ideas, covering both general relativity and quantum field theory are introduced and...
We demonstrate a simple, fully analytic method of calculating the amount of radiation emitted by opt...
We analyze the electromagnetic field of a charged particle that uniformly moves in a circular wavegu...
A covariant criterion for the emission of Cherenkov radiation in the field of a nonlinear gravitatio...
The simplest way to modify gravity is to extend the gravitational sector to include an additional sc...
This work reviews our current understanding of Cherenkov-type processes in vacuum that may occur due...
The possibility that a charged particle propagating in a gravitational field described by Brans-Dick...
Cherenkov radiation may occur whenever the source is moving faster than the waves it generates. In a...
Electromagnetic processes associated with a charged particle moving in a strong circular magnetic fi...
We investigate gravitational Cherenkov radiation in a healthy branch of background solutions in the ...
The possibility that a charged particle propagating in a gravitational field described by Brans-Dick...
The exact solutions of the problems of propagation of electromagnetic and massive vector fields in t...
We develop a new approach to local nonlinear effects in cosmic microwave background anisotropies, an...
We analyze the electromagnetic field of a charged particle moving uniformly in a circular waveguide ...
ABSTRACT: Instead of the Big Bang model, which considers the cosmic background radiation (CBR) as t...
A range of novel ideas, covering both general relativity and quantum field theory are introduced and...
We demonstrate a simple, fully analytic method of calculating the amount of radiation emitted by opt...
We analyze the electromagnetic field of a charged particle that uniformly moves in a circular wavegu...