Add to ORKGSince wavelets form a representation of the Poincare group, it is possible to construct a localized superposition of light waves with different frequencies in a Lorentz-covariant manner. This localized wavelet satisfies a Lorentz-invariant uncertainty relation, and also the Lorentz-invariant Parseval's relation. A quantitative analysis is given for the difference between photons and localized waves. It is then shown that this localized entity corresponds to a relativistic photon with a sharply defined momentum in the non-localization limit. Waves are not particles. It is confirmed that the wave-particle duality is subject to the uncertainty principle
A review is given of the space-time wave mechanics of single photons, a subject with an almost centu...
We give a definition of locality in quantum optics based upon Bell's work, and show that locality ha...
This paper aims to present the pure field part of the newly developed nonlinear Extended Electrodyna...
It is shown that the wavelet is the natural language for the Lorentz covariant description of locali...
In this report, we show that a photon inside a waveguide can be localized in the same sense that a m...
One and two photon wave functions are obtained by projection onto a basis of simultaneous eigenvecto...
One of the striking features of QED is that charged particles create a coherent cloud of photons. Th...
In this article, we show that in the level of quantum mechanics, a photon position operator with com...
A new proposal for a Lorentz-invariant spontaneous localization theory is presented. It is based on ...
We report Adrian Kent's proposed framework for a realist, one-world, Lorentz-invariant formulation o...
In this chapter we examine the quantised electromagnetic (EM) field in the context of a Schrödinger ...
We define a set of fully Lorentz-invariant wave packets and show that it spans the corresponding one...
We demonstrate that it is possible to localize photons nonreciprocally in a moving photonic lattice ...
It is shown that complexities in a problem of elastic scattering of a photon on a pair of Rayleigh p...
The monochromatic Dirac and polychromatic Titulaer-Glauber quantized field theories (QFTs) of electr...
A review is given of the space-time wave mechanics of single photons, a subject with an almost centu...
We give a definition of locality in quantum optics based upon Bell's work, and show that locality ha...
This paper aims to present the pure field part of the newly developed nonlinear Extended Electrodyna...
It is shown that the wavelet is the natural language for the Lorentz covariant description of locali...
In this report, we show that a photon inside a waveguide can be localized in the same sense that a m...
One and two photon wave functions are obtained by projection onto a basis of simultaneous eigenvecto...
One of the striking features of QED is that charged particles create a coherent cloud of photons. Th...
In this article, we show that in the level of quantum mechanics, a photon position operator with com...
A new proposal for a Lorentz-invariant spontaneous localization theory is presented. It is based on ...
We report Adrian Kent's proposed framework for a realist, one-world, Lorentz-invariant formulation o...
In this chapter we examine the quantised electromagnetic (EM) field in the context of a Schrödinger ...
We define a set of fully Lorentz-invariant wave packets and show that it spans the corresponding one...
We demonstrate that it is possible to localize photons nonreciprocally in a moving photonic lattice ...
It is shown that complexities in a problem of elastic scattering of a photon on a pair of Rayleigh p...
The monochromatic Dirac and polychromatic Titulaer-Glauber quantized field theories (QFTs) of electr...
A review is given of the space-time wave mechanics of single photons, a subject with an almost centu...
We give a definition of locality in quantum optics based upon Bell's work, and show that locality ha...
This paper aims to present the pure field part of the newly developed nonlinear Extended Electrodyna...