Add to ORKGPhoton states can be represented using many families of orthogonal fields, such as plane waves, Laguerre-Gaussian beams, Bessel beams, etc... Here, we show that optical eigenmodes offer a particular useful description of single photon quantum state in a light-matter interaction
Optical quantum systems are ideal for testing quantum mechanical laws, but they also find many uses ...
We discuss the spectral structure and decomposition of multi-photon states. Ordinarily 'multi-photon...
We study the evolution of the quantum state of n photons in m different modes when they go through a...
Photon states can be represented using many families of orthogonal fields, such as plane waves, Lagu...
When light scatters from an object, it can impart some physical quantity such as momentum or angular...
The optical eigenmode representation of light fields defines a natural orthogonal basis of solutions...
In linear optics, the concept of a mode or eigenmode is well established. Often these modes correspo...
Optical eigenmodes describe coherent solutions of Maxwells equations that are orthogonal to each oth...
We introduce special photonic lattices where we can, in principle, selectively excite the constituti...
In linear optics, the concept of a mode is well established. Often these modes correspond to a set o...
We discuss the concept of a single-photon state together with how they are generated, measured and i...
Applications that envisage utilizing the orbital angular momentum (OAM) at the single photon level a...
The purpose of this paper is to extend linear systems and signals theory to include single photon qu...
We experimentally demonstrate deterministic modification of the spectraltemporal mode structure of q...
The realization of strong interactions between individual photons is a long-standing goal of both fu...
Optical quantum systems are ideal for testing quantum mechanical laws, but they also find many uses ...
We discuss the spectral structure and decomposition of multi-photon states. Ordinarily 'multi-photon...
We study the evolution of the quantum state of n photons in m different modes when they go through a...
Photon states can be represented using many families of orthogonal fields, such as plane waves, Lagu...
When light scatters from an object, it can impart some physical quantity such as momentum or angular...
The optical eigenmode representation of light fields defines a natural orthogonal basis of solutions...
In linear optics, the concept of a mode or eigenmode is well established. Often these modes correspo...
Optical eigenmodes describe coherent solutions of Maxwells equations that are orthogonal to each oth...
We introduce special photonic lattices where we can, in principle, selectively excite the constituti...
In linear optics, the concept of a mode is well established. Often these modes correspond to a set o...
We discuss the concept of a single-photon state together with how they are generated, measured and i...
Applications that envisage utilizing the orbital angular momentum (OAM) at the single photon level a...
The purpose of this paper is to extend linear systems and signals theory to include single photon qu...
We experimentally demonstrate deterministic modification of the spectraltemporal mode structure of q...
The realization of strong interactions between individual photons is a long-standing goal of both fu...
Optical quantum systems are ideal for testing quantum mechanical laws, but they also find many uses ...
We discuss the spectral structure and decomposition of multi-photon states. Ordinarily 'multi-photon...
We study the evolution of the quantum state of n photons in m different modes when they go through a...