Add to ORKGOptical analogues have been suggested as a means to explore systems that are described by general relativity. We show an optical analogue of the Schrödinger-Newton equation applied to the specific study of rotating boson stars
Given a non-holonomic space, time lines are non-orthogonal to the spatial section therein, which man...
We show that optomechanical systems can test the Schrödinger-Newton equation of gravitational quant...
We construct and study rotating axion boson stars (RABSs). These are the spinning generalisations of...
Optical analogues have been suggested as a means to explore systems that are described by general re...
Many gravitational phenomena that lie at the core of our understanding of the Universe have not yet ...
Many gravitational phenomena that lie at the core of our understanding of the Universe have not yet ...
In this work we study the effects of rotating stars on the behavior of bosons close to their surface...
International audienceThis work is devoted to the study of photon trajectories around rotating boson...
Optical analogues to black holes allow the investigation of general relativity in a laboratory setti...
The optical-mechanical analogy involves the expression of geometrical optics and particle mechanics ...
International audienceWe have developed a highly accurate numerical code capable of solving the coup...
In many metrics of physical interest, the gravitational field can be represented as an optical mediu...
A vortex in a Bose-Einstein condensate generates the optical analog of the Aharonov-Bohm effect when...
In many metrics of physical interest, the gravitational field can be rep resented as...
Using the Newtonian approximation, we study rotating compact bosonic objects. The equations which de...
Given a non-holonomic space, time lines are non-orthogonal to the spatial section therein, which man...
We show that optomechanical systems can test the Schrödinger-Newton equation of gravitational quant...
We construct and study rotating axion boson stars (RABSs). These are the spinning generalisations of...
Optical analogues have been suggested as a means to explore systems that are described by general re...
Many gravitational phenomena that lie at the core of our understanding of the Universe have not yet ...
Many gravitational phenomena that lie at the core of our understanding of the Universe have not yet ...
In this work we study the effects of rotating stars on the behavior of bosons close to their surface...
International audienceThis work is devoted to the study of photon trajectories around rotating boson...
Optical analogues to black holes allow the investigation of general relativity in a laboratory setti...
The optical-mechanical analogy involves the expression of geometrical optics and particle mechanics ...
International audienceWe have developed a highly accurate numerical code capable of solving the coup...
In many metrics of physical interest, the gravitational field can be represented as an optical mediu...
A vortex in a Bose-Einstein condensate generates the optical analog of the Aharonov-Bohm effect when...
In many metrics of physical interest, the gravitational field can be rep resented as...
Using the Newtonian approximation, we study rotating compact bosonic objects. The equations which de...
Given a non-holonomic space, time lines are non-orthogonal to the spatial section therein, which man...
We show that optomechanical systems can test the Schrödinger-Newton equation of gravitational quant...
We construct and study rotating axion boson stars (RABSs). These are the spinning generalisations of...