Add to ORKGWe study the propagation of electromagnetic pulses through photonic bandgap materials and relate time-domain pulse reshaping to observable transit times. For layered dielectric mirrors we demonstrate how pulse reshaping of slowly varying classical fields results in transit-time delays that are equivalent to the group delay. The time-domain analysis emphasizes the causal origin of negative group delays. We also study an analogous fully-quantized model and show how the same time-domain analysis may be used to interpret observed delays of single-photon fields
In this chapter, we give a brief review of our recent research works on photonic bandgaps induced by...
A new model is proposed to investigate femtosecond laser pulse train processing of dielectrics by in...
We investigate the propagation of optical pulses through two different solid-state optical materials...
A layer-by-layer analysis of the time delay of both reflected and transmitted light in one-dimension...
The possibility to engineer the group velocity (vg) of light has attracted much attention in the las...
Photonic Time Crystals (PTCs) - dielectric media with their refractive index modulated periodically ...
Propagation of a nanosecond microwave pulse through a photonic crystal placed into an X-band wavegui...
Single γ photon propagation in a dense absorptive medium with two widely spaced resonances is experi...
We show how slow-light pulse delays in realistic electromagnetically-induced-transparency (EIT) medi...
Abstract: Recent experiments have conÞrmed our predictions that the group velocity of light pulses p...
A new formula for the delayed electromagnetic field and the time spectrum of a coherent synchrotron ...
In this work, we theoretically investigate the superluminal and subluminal reflected group delay fro...
A new formula for the delayed electromagnetic field and the time spectrum of a coherent synchrotron ...
Investigating the propagation of electromagnetic radiation in linear and nonlinear materials (with t...
A time-resolved analysis of the amplitude and phase of THz pulses propagating through three-dimensio...
In this chapter, we give a brief review of our recent research works on photonic bandgaps induced by...
A new model is proposed to investigate femtosecond laser pulse train processing of dielectrics by in...
We investigate the propagation of optical pulses through two different solid-state optical materials...
A layer-by-layer analysis of the time delay of both reflected and transmitted light in one-dimension...
The possibility to engineer the group velocity (vg) of light has attracted much attention in the las...
Photonic Time Crystals (PTCs) - dielectric media with their refractive index modulated periodically ...
Propagation of a nanosecond microwave pulse through a photonic crystal placed into an X-band wavegui...
Single γ photon propagation in a dense absorptive medium with two widely spaced resonances is experi...
We show how slow-light pulse delays in realistic electromagnetically-induced-transparency (EIT) medi...
Abstract: Recent experiments have conÞrmed our predictions that the group velocity of light pulses p...
A new formula for the delayed electromagnetic field and the time spectrum of a coherent synchrotron ...
In this work, we theoretically investigate the superluminal and subluminal reflected group delay fro...
A new formula for the delayed electromagnetic field and the time spectrum of a coherent synchrotron ...
Investigating the propagation of electromagnetic radiation in linear and nonlinear materials (with t...
A time-resolved analysis of the amplitude and phase of THz pulses propagating through three-dimensio...
In this chapter, we give a brief review of our recent research works on photonic bandgaps induced by...
A new model is proposed to investigate femtosecond laser pulse train processing of dielectrics by in...
We investigate the propagation of optical pulses through two different solid-state optical materials...