Add to ORKGWe present a theoretical treatment of electromagnetically induced transparency and light storage using standing wave coupling fields in a medium comprised of stationary atoms, such as an ultra cold atomic gas or a solid state medium. We show that it is possible to create stationary pulses of light which have a qualitatively different behavior than in the case of a thermal gas medium, offering greater potential for quantum information processing applications
DoctorQuantum lights have been the essential sources for exploring fundamental quantum effects in qu...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
We report on an experimental study of slow pulse propagation and polarization storage of light in an...
We present a detailed theoretical description of the generation of stationary light pulses by standi...
Electromagnetically induced transparency(1-3) is a quantum interference effect that permits the prop...
When ensembles of atoms interact with coherent light fields, a great many interesting and useful eff...
We develop a general scheme for studying the optical response of ultracold atoms driven into a regim...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
[[abstract]]We study the creation of stationary light pulses (SLPs), i.e., light pulses without moti...
[[abstract]] Electromagnetically induced transparency (EIT) is a quantum interference mechanism to ...
The recent prospect of efficient, reliable, and secure quantum communication relies on the ability t...
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...
Dynamic control of a weak quantum probe light pulse for the generation and quantum manipulations of ...
The recent prospect of efficient, reliable, and secure quantum communication relies on the ability t...
DoctorQuantum lights have been the essential sources for exploring fundamental quantum effects in qu...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
We report on an experimental study of slow pulse propagation and polarization storage of light in an...
We present a detailed theoretical description of the generation of stationary light pulses by standi...
Electromagnetically induced transparency(1-3) is a quantum interference effect that permits the prop...
When ensembles of atoms interact with coherent light fields, a great many interesting and useful eff...
We develop a general scheme for studying the optical response of ultracold atoms driven into a regim...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
[[abstract]]We study the creation of stationary light pulses (SLPs), i.e., light pulses without moti...
[[abstract]] Electromagnetically induced transparency (EIT) is a quantum interference mechanism to ...
The recent prospect of efficient, reliable, and secure quantum communication relies on the ability t...
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...
Dynamic control of a weak quantum probe light pulse for the generation and quantum manipulations of ...
The recent prospect of efficient, reliable, and secure quantum communication relies on the ability t...
DoctorQuantum lights have been the essential sources for exploring fundamental quantum effects in qu...
We have studied stationary and quasistationary signal light pulses in cold Λ-type atomic media drive...
We report on an experimental study of slow pulse propagation and polarization storage of light in an...