Add to ORKGAn important development in modern physics is the emerging capability for investigations of dynamical processes for open quantum systems in a regime of strong coupling for which individual quanta play a decisive role. Of particular significance in this context is research in cavity quantum electrodynamics which explores quantum dynamical processes for individual atoms strongly coupled to the electromagnetic field of a resonator. An overview of the research activities in the Quantum Optics Group at Caltech is presented with an emphasis on strong coupling in cavity QED which enables exploration of a new regime of nonlinear optics with single atoms and photons
We describe a qualitatively new regime of cavity quantum electrodynamics, the super strong coupling ...
In this work, we provide an overview of how well-established concepts in the fields of quantum chemi...
A nonlinear spectroscopic investigation of a strongly coupled atom-cavity system is presented. A two...
Recent experimental advances in the field of cavity quantum electrodynamics (QED) have opened new po...
On the occasion of the hundredth anniversary of Albert Einstein's annus mirabilis, we reflect on the...
The experiments of our group in optical cavity QED are characterized by the strong coupling of a sma...
Abstract. Recent experimental advances in the field of cavity quantum electrodynamics (QED) have ope...
Cavity quantum electrodynamics (QED) offers powerful possibilities for the deterministic control of ...
Although diverse manifestations of the quantum or non–classical character of the electromagnetic fie...
Using laser-cooled atoms strongly coupled to a high finesse optical cavity, we have performed real-t...
Many of the current efforts to control the dynamics of individual quantum systems take place within ...
Current experiments in our group explore the quantum interface between matter and light, with the go...
Strongly coupled cavity QED systems show great promise for coherent processing of quantum informatio...
Cavity quantum electrodynamics provides the setting for quantum control of strong interactions betwe...
Cavity quantum electrodynamics (cavity QED) has proven to be exceedingly successful in illuminating ...
We describe a qualitatively new regime of cavity quantum electrodynamics, the super strong coupling ...
In this work, we provide an overview of how well-established concepts in the fields of quantum chemi...
A nonlinear spectroscopic investigation of a strongly coupled atom-cavity system is presented. A two...
Recent experimental advances in the field of cavity quantum electrodynamics (QED) have opened new po...
On the occasion of the hundredth anniversary of Albert Einstein's annus mirabilis, we reflect on the...
The experiments of our group in optical cavity QED are characterized by the strong coupling of a sma...
Abstract. Recent experimental advances in the field of cavity quantum electrodynamics (QED) have ope...
Cavity quantum electrodynamics (QED) offers powerful possibilities for the deterministic control of ...
Although diverse manifestations of the quantum or non–classical character of the electromagnetic fie...
Using laser-cooled atoms strongly coupled to a high finesse optical cavity, we have performed real-t...
Many of the current efforts to control the dynamics of individual quantum systems take place within ...
Current experiments in our group explore the quantum interface between matter and light, with the go...
Strongly coupled cavity QED systems show great promise for coherent processing of quantum informatio...
Cavity quantum electrodynamics provides the setting for quantum control of strong interactions betwe...
Cavity quantum electrodynamics (cavity QED) has proven to be exceedingly successful in illuminating ...
We describe a qualitatively new regime of cavity quantum electrodynamics, the super strong coupling ...
In this work, we provide an overview of how well-established concepts in the fields of quantum chemi...
A nonlinear spectroscopic investigation of a strongly coupled atom-cavity system is presented. A two...