Add to ORKGThe interaction of intense coherent light with Frenkel excitons has been studied for investigating the self-induced transparency. Some nonlinear effects neglected before have been included. It is found that the frequency spectrum consistent with the pulse propagation is wider by two orders of magnitude compared with the previous result
The appearance of quantum interference in the microscopic world is one of the deepest mysteries at t...
Modern laser sources nowadays deliver ultrashort light pulses reaching few cycles in duration, high ...
Three-level atomic and molecular systems coupled to two laser fields exhibit transparency effects th...
We theoretically analyze the propagation of strong laser pulses in a sample of inhomogeneously broad...
Resonant absorption in a laser pulse can be reduced to zero if the trailing part induces stimulated ...
We study fully relativistic nonlinear one-dimensional equations describing steady-state solutions fo...
We show that the self-induced transparency of optical phonons may appear in a systems consisting of ...
The phenomenon of self-induced transparency (SIT) is reinterpreted in the context of competition bet...
Propagation of an intense femtosecond laser pulse through a transparent nonlinear medium such as die...
The interaction of a strong electromagnetic wave with a layer of overdense plasma is considered unde...
We study quantum effects of light propagation through an extended absorbing system of two-level atom...
In a system of high-density excitons modeled as a system of anharmonic oscillators we demonstrate th...
We show that light scattering from a cloud of nano-particles dispersed in a host medium can lead to ...
The absorption spectrum of a bound state with a finite lifetime gives rise to the well-known Lorentz...
Using the bosonic exciton approximation, we show that there exists electromagnetically induced trans...
The appearance of quantum interference in the microscopic world is one of the deepest mysteries at t...
Modern laser sources nowadays deliver ultrashort light pulses reaching few cycles in duration, high ...
Three-level atomic and molecular systems coupled to two laser fields exhibit transparency effects th...
We theoretically analyze the propagation of strong laser pulses in a sample of inhomogeneously broad...
Resonant absorption in a laser pulse can be reduced to zero if the trailing part induces stimulated ...
We study fully relativistic nonlinear one-dimensional equations describing steady-state solutions fo...
We show that the self-induced transparency of optical phonons may appear in a systems consisting of ...
The phenomenon of self-induced transparency (SIT) is reinterpreted in the context of competition bet...
Propagation of an intense femtosecond laser pulse through a transparent nonlinear medium such as die...
The interaction of a strong electromagnetic wave with a layer of overdense plasma is considered unde...
We study quantum effects of light propagation through an extended absorbing system of two-level atom...
In a system of high-density excitons modeled as a system of anharmonic oscillators we demonstrate th...
We show that light scattering from a cloud of nano-particles dispersed in a host medium can lead to ...
The absorption spectrum of a bound state with a finite lifetime gives rise to the well-known Lorentz...
Using the bosonic exciton approximation, we show that there exists electromagnetically induced trans...
The appearance of quantum interference in the microscopic world is one of the deepest mysteries at t...
Modern laser sources nowadays deliver ultrashort light pulses reaching few cycles in duration, high ...
Three-level atomic and molecular systems coupled to two laser fields exhibit transparency effects th...