Add to ORKGWe present a mathematical framework for simulation of optical fields in complex gravitational-wave interferometers. The simulation framework uses the two-photon formalism for optical fields and includes radiation pressure effects, an important addition required for simulating signal and noise fields in next-generation interferometers with high circulating power. We present a comparison of results from the simulation with analytical calculation and show that accurate agreement is achieved
The beamplitter in high-power interferometers is subject to significant radiation-pressure fluctuati...
By utilizing quantum optics techniques, we examine the characteristics of a quantum gravitational wa...
Quantum interference lies at the basis of fundamental differences between quantum and classical beha...
We present a mathematical framework for simulation of optical fields in complex gravitational-wave i...
We present a mathematical framework for simulation of optical fields in complex gravitational-wave i...
The interaction of light with optical elements via radiation pressure plays a predominant role in de...
In this paper, we provide an algorithm and general framework for the simulation of photons passing t...
Using Quantum Field Theory we derive a general formula for the double inclusive spectra of photons r...
Quantum gravity is quite elusive at the experimental level; thus a lot of interest has been raised b...
This thesis reports advances in the theory of design, characterization and simulation of multi-photo...
This thesis covers topics in gravitational wave physics, including optomechanical measurement theory...
We present a corpuscular simulation model of optical phenomena that does not require the knowledge o...
We discuss a model for interferometric GW antennas illuminated by a laser beam and a vacuum squeezed...
This thesis reports advances in the theory of design, characterization and simulation of multi-photo...
The second generation of ground based interferometric gravitational wave detectors, offering ten tim...
The beamplitter in high-power interferometers is subject to significant radiation-pressure fluctuati...
By utilizing quantum optics techniques, we examine the characteristics of a quantum gravitational wa...
Quantum interference lies at the basis of fundamental differences between quantum and classical beha...
We present a mathematical framework for simulation of optical fields in complex gravitational-wave i...
We present a mathematical framework for simulation of optical fields in complex gravitational-wave i...
The interaction of light with optical elements via radiation pressure plays a predominant role in de...
In this paper, we provide an algorithm and general framework for the simulation of photons passing t...
Using Quantum Field Theory we derive a general formula for the double inclusive spectra of photons r...
Quantum gravity is quite elusive at the experimental level; thus a lot of interest has been raised b...
This thesis reports advances in the theory of design, characterization and simulation of multi-photo...
This thesis covers topics in gravitational wave physics, including optomechanical measurement theory...
We present a corpuscular simulation model of optical phenomena that does not require the knowledge o...
We discuss a model for interferometric GW antennas illuminated by a laser beam and a vacuum squeezed...
This thesis reports advances in the theory of design, characterization and simulation of multi-photo...
The second generation of ground based interferometric gravitational wave detectors, offering ten tim...
The beamplitter in high-power interferometers is subject to significant radiation-pressure fluctuati...
By utilizing quantum optics techniques, we examine the characteristics of a quantum gravitational wa...
Quantum interference lies at the basis of fundamental differences between quantum and classical beha...