Add to ORKGWe develop the theory of light propagation under the conditions of electromagnetically induced transparency in systems involving strongly interacting Rydberg states. Taking into account the quantum nature and the spatial propagation of light, we analyze interactions involving few-photon pulses. We show that this system can be used for the generation of nonclassical states of light including trains of single photons with an avoided volume between them, for implementing photon-photon gates, as well as for studying many-body phenomena with strongly correlated photons
We investigate facilitation-induced transparency (FIT) enabled by strong and long-range Rydberg atom...
The fundamental properties of light derive from its constituent particles—massless quanta (photons) ...
Rydberg electromagnetically induced transparency (Rydberg EIT) enables extremely strong optical nonl...
We develop the theory of light propagation under the conditions of electromagnetically induced trans...
We develop the theory of light propagation under the conditions of electromagnetically induced trans...
We develop the theory of light propagation under the conditions of electromagnetically induced trans...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2017.Cataloged from PD...
The coupling of light to ensembles of strongly interacting Rydberg atoms via electromagnetically ind...
We develop a theoretical framework for the dissipative propagation of quantized light under conditio...
Interacting Rydberg excitations in cold atomic ensembles can exhibit large quantum nonlinearities th...
The realization of strong nonlinear interactions between individual light quanta (photons) is a long...
The coupling of light to ensembles of strongly interacting Rydberg atoms via electromagnetically ind...
The coupling of light to ensembles of strongly interacting Rydberg atoms via electromagnetically ind...
We develop an effective field theory (EFT) to describe the few- and many-body propagation of one-dim...
Designing materials with specific properties has been a long-time goal of the physics community. Op...
We investigate facilitation-induced transparency (FIT) enabled by strong and long-range Rydberg atom...
The fundamental properties of light derive from its constituent particles—massless quanta (photons) ...
Rydberg electromagnetically induced transparency (Rydberg EIT) enables extremely strong optical nonl...
We develop the theory of light propagation under the conditions of electromagnetically induced trans...
We develop the theory of light propagation under the conditions of electromagnetically induced trans...
We develop the theory of light propagation under the conditions of electromagnetically induced trans...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Physics, 2017.Cataloged from PD...
The coupling of light to ensembles of strongly interacting Rydberg atoms via electromagnetically ind...
We develop a theoretical framework for the dissipative propagation of quantized light under conditio...
Interacting Rydberg excitations in cold atomic ensembles can exhibit large quantum nonlinearities th...
The realization of strong nonlinear interactions between individual light quanta (photons) is a long...
The coupling of light to ensembles of strongly interacting Rydberg atoms via electromagnetically ind...
The coupling of light to ensembles of strongly interacting Rydberg atoms via electromagnetically ind...
We develop an effective field theory (EFT) to describe the few- and many-body propagation of one-dim...
Designing materials with specific properties has been a long-time goal of the physics community. Op...
We investigate facilitation-induced transparency (FIT) enabled by strong and long-range Rydberg atom...
The fundamental properties of light derive from its constituent particles—massless quanta (photons) ...
Rydberg electromagnetically induced transparency (Rydberg EIT) enables extremely strong optical nonl...