We consider superfluidity and quantum vorticity in rotating spacetimes. The system is described by a complex scalar satisfying a nonlinear Klein–Gordon equation. Rotation terms are identified and found to lead to the transfer of angular momentum of the spacetime to the scalar field. The scalar field responds by rotating, physically behaving as a superfluid, through the creation of quantized vortices. We demonstrate vortex nucleation through numerical simulation.Published versio
ABSTRACT: Self-bound quantum droplets, resulting from the balance between attractive and repulsive ...
We analytically investigate the perturbative effects of a quantum conformally coupled scalar field o...
The subject of this book is the physics of vortices. A detailed analysis of the dynamics of vortices...
Vortexes in superfluids are a critical part of quantum optics, quantum dynamics studies and quantum ...
We investigate superfluidity, and the mechanism for creation of quantized vortices, in the relativis...
Fundamental physical phenomena, such as gravity, electromagnetism and light have been studied over t...
Vortexes in three dimensional systems are an emerging topic of study in the realm of quantum physics...
The hypothesis starts from considering the physical vacuum as a superfluid quantum medium, that we c...
The study of quantum vortex dynamics in He II holds great promise to refine quantum-fluid models. Bo...
Simulations of galactic vorticity require the development of complex systems of equations to generat...
Superfluids have very peculiar rotational properties as the Hess-Fairbank experiment spectacularly d...
In a recent experiment, Finne et al. discovered an intrinsic condition for the onset of quantum tur...
Superfluid vortex dynamics on an infinite cylinder differs significantly from that on a plane. The r...
[[abstract]]We investigate quantum nucleation of vortex string loops in the relativistic quantum fie...
In this paper we present some hydrodynamical consequences of a previously proposed stochastic model ...
ABSTRACT: Self-bound quantum droplets, resulting from the balance between attractive and repulsive ...
We analytically investigate the perturbative effects of a quantum conformally coupled scalar field o...
The subject of this book is the physics of vortices. A detailed analysis of the dynamics of vortices...
Vortexes in superfluids are a critical part of quantum optics, quantum dynamics studies and quantum ...
We investigate superfluidity, and the mechanism for creation of quantized vortices, in the relativis...
Fundamental physical phenomena, such as gravity, electromagnetism and light have been studied over t...
Vortexes in three dimensional systems are an emerging topic of study in the realm of quantum physics...
The hypothesis starts from considering the physical vacuum as a superfluid quantum medium, that we c...
The study of quantum vortex dynamics in He II holds great promise to refine quantum-fluid models. Bo...
Simulations of galactic vorticity require the development of complex systems of equations to generat...
Superfluids have very peculiar rotational properties as the Hess-Fairbank experiment spectacularly d...
In a recent experiment, Finne et al. discovered an intrinsic condition for the onset of quantum tur...
Superfluid vortex dynamics on an infinite cylinder differs significantly from that on a plane. The r...
[[abstract]]We investigate quantum nucleation of vortex string loops in the relativistic quantum fie...
In this paper we present some hydrodynamical consequences of a previously proposed stochastic model ...
ABSTRACT: Self-bound quantum droplets, resulting from the balance between attractive and repulsive ...
We analytically investigate the perturbative effects of a quantum conformally coupled scalar field o...
The subject of this book is the physics of vortices. A detailed analysis of the dynamics of vortices...