Add to ORKGWe have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media driven by counterpropagating control laser fields at the condition of electromagnetically induced transparency. By deriving a dispersion relation we present spectral and temporal properties of the signal light pulse and a significant influence of atomic decoherence on the coupled stationary light pulses for spatial splitting. Finally we discuss quasistationary light pulse evolution characterized by frozen spatial spreading for a robust coherent control of slow light pulses. © 2014 American Physical Society
Fourier-expanded Maxwell-Liouville equations are employed to study the light pulse dynamics in atomi...
This dissertation reports experimental studies of nonlinear optical effects manifested by electromag...
In this work we investigate propagation of two laser pulses in the optically dense atomic medium (th...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
The light wave propagating in a dispersive medium can be formularized as electromagnetic (EM) fields...
We develop a general scheme for studying the optical response of ultracold atoms driven into a regim...
We present a theoretical treatment of electromagnetically induced transparency and light storage usi...
Atomic media have played a major role in studies of fast light. One of their attractive features is ...
In this thesis we study light-matter coherence phenomena related to the interaction of a coherent la...
We examine the role of nearby hyper-fine levels in a three-level transparency driven system in which...
This research work aims to analyze light propagation in resonant cold atomic gas enviroment. When we...
We investigate theoretically the slow group velocity of a pulse probe laser propagating through a co...
Electromagnetically induced transparency(1-3) is a quantum interference effect that permits the prop...
Fourier-expanded Maxwell-Liouville equations are employed to study the light pulse dynamics in atomi...
This dissertation reports experimental studies of nonlinear optical effects manifested by electromag...
In this work we investigate propagation of two laser pulses in the optically dense atomic medium (th...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
The light wave propagating in a dispersive medium can be formularized as electromagnetic (EM) fields...
We develop a general scheme for studying the optical response of ultracold atoms driven into a regim...
We present a theoretical treatment of electromagnetically induced transparency and light storage usi...
Atomic media have played a major role in studies of fast light. One of their attractive features is ...
In this thesis we study light-matter coherence phenomena related to the interaction of a coherent la...
We examine the role of nearby hyper-fine levels in a three-level transparency driven system in which...
This research work aims to analyze light propagation in resonant cold atomic gas enviroment. When we...
We investigate theoretically the slow group velocity of a pulse probe laser propagating through a co...
Electromagnetically induced transparency(1-3) is a quantum interference effect that permits the prop...
Fourier-expanded Maxwell-Liouville equations are employed to study the light pulse dynamics in atomi...
This dissertation reports experimental studies of nonlinear optical effects manifested by electromag...
In this work we investigate propagation of two laser pulses in the optically dense atomic medium (th...