Add to ORKGKinetic treatment of the Jeans gravitational instability, with collisions taken into account, is presented. The initial-value problem for the distribution function which obeys the kinetic equation, with the collision integral conserving the number of particles, is solved. Dispersion relation is obtained and analyzed. New modes are found. Collisions are shown not to affect the Jeans instability criterion. Although the instability growth rate diminishes, the collisions they cannot quench the instability. However, the oscillation spectrum is modified significantly: even in the neighborhood of the threshold frequency =0 (separating stable and unstable modes) the spectrum of oscillations can strongly depend on the collision frequency. Propagatin...
Based on mathematically rigorous analysis of nonlinear differential equations studied in our compani...
In this paper, we study the Jeans analysis in the context of energy–momentum-squared gravity (EMSG)....
In the simplest case, a dust grain immersed in a plasma is negatively charged due to particle collec...
Kinetic treatment of the Jeans gravitational instability, with collisions taken into account, is pre...
The concept of Jeans gravitational instability is rediscussed in the framework of nonextensive stati...
We analyze the stability of self-gravitating systems which dynamics is investigated using the collis...
According to the classical Jeans analysis, all the molecular clouds of mass larger than a few 100 M(...
Gravitational instability in classical Jeans theory, General Relativity, and modified gravity is con...
AbstractGravitational instability in classical Jeans theory, General Relativity, and modified gravit...
The Jeans gravitational instability in nonextensive statistical mechanics is studied and a general f...
In this thesis, gravitational instability of self-gravitating systems was studied using Jeans analys...
The well-known Jeans criterion describes the onset of instabilities in an infinite, homogeneous, sel...
We derive analytically the Jeans criterion for a gas simulated using an SPH code in which the number...
We analyze the effect of a gravitational field on the sound modes of superfluids. We derive an insta...
Based on mathematically rigorous analysis of nonlinear differential equations studied in our compani...
In this paper, we study the Jeans analysis in the context of energy–momentum-squared gravity (EMSG)....
In the simplest case, a dust grain immersed in a plasma is negatively charged due to particle collec...
Kinetic treatment of the Jeans gravitational instability, with collisions taken into account, is pre...
The concept of Jeans gravitational instability is rediscussed in the framework of nonextensive stati...
We analyze the stability of self-gravitating systems which dynamics is investigated using the collis...
According to the classical Jeans analysis, all the molecular clouds of mass larger than a few 100 M(...
Gravitational instability in classical Jeans theory, General Relativity, and modified gravity is con...
AbstractGravitational instability in classical Jeans theory, General Relativity, and modified gravit...
The Jeans gravitational instability in nonextensive statistical mechanics is studied and a general f...
In this thesis, gravitational instability of self-gravitating systems was studied using Jeans analys...
The well-known Jeans criterion describes the onset of instabilities in an infinite, homogeneous, sel...
We derive analytically the Jeans criterion for a gas simulated using an SPH code in which the number...
We analyze the effect of a gravitational field on the sound modes of superfluids. We derive an insta...
Based on mathematically rigorous analysis of nonlinear differential equations studied in our compani...
In this paper, we study the Jeans analysis in the context of energy–momentum-squared gravity (EMSG)....
In the simplest case, a dust grain immersed in a plasma is negatively charged due to particle collec...