Add to ORKGWe present a detailed theoretical description of the generation of stationary light pulses by standing wave electromagnetically induced transparency in media comprised of stationary atoms. We show that, contrary to thermal gas media, the achievable storage times are limited only by the ground state dephasing rate of the atoms, making such media ideally suited for nonlinear optical interactions between stored pulses. Furthermore, we find significant quantitative and qualitative differences between the two types of media, which are important for quantum information processing schemes involving stationary light pulses
Shape-preserving adiabatic propagation of electromagnetic pulses, often termed adiabatons, in threel...
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 present a theoretical treatment of electromagnetically induced transparency and light storage usi...
When ensembles of atoms interact with coherent light fields, a great many interesting and useful eff...
© 2022 American Physical Society. The stationary light pulse (SLP) refers to a zero-group-velocity o...
© 2022 Author(s).Efficient photon-photon interaction is one of the key elements for realizing quantu...
This paper reviews recent efforts to realize a high-efficiency memory for optical pulses using slow ...
Electromagnetically-induced transparency and light storing are studied in the case of a medium of at...
Electromagnetically induced transparency(1-3) is a quantum interference effect that permits the prop...
We examine in detail an alternative method of retrieving the information written into an atomic ense...
We develop a general scheme for studying the optical response of ultracold atoms driven into a regim...
DoctorQuantum lights have been the essential sources for exploring fundamental quantum effects in qu...
Storing and perpendicular retrieving of light pulses in electromagnetically induced transparency med...
Digital signal processing, holography, and quantum and classical information processing rely heavily...
Shape-preserving adiabatic propagation of electromagnetic pulses, often termed adiabatons, in threel...
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 present a theoretical treatment of electromagnetically induced transparency and light storage usi...
When ensembles of atoms interact with coherent light fields, a great many interesting and useful eff...
© 2022 American Physical Society. The stationary light pulse (SLP) refers to a zero-group-velocity o...
© 2022 Author(s).Efficient photon-photon interaction is one of the key elements for realizing quantu...
This paper reviews recent efforts to realize a high-efficiency memory for optical pulses using slow ...
Electromagnetically-induced transparency and light storing are studied in the case of a medium of at...
Electromagnetically induced transparency(1-3) is a quantum interference effect that permits the prop...
We examine in detail an alternative method of retrieving the information written into an atomic ense...
We develop a general scheme for studying the optical response of ultracold atoms driven into a regim...
DoctorQuantum lights have been the essential sources for exploring fundamental quantum effects in qu...
Storing and perpendicular retrieving of light pulses in electromagnetically induced transparency med...
Digital signal processing, holography, and quantum and classical information processing rely heavily...
Shape-preserving adiabatic propagation of electromagnetic pulses, often termed adiabatons, in threel...
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...