Jesse L. Everett
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View article: Electromagnetically-induced transparency assists the Raman gradient echo memory at moderate detuning, dependent on gradient order
Electromagnetically-induced transparency assists the Raman gradient echo memory at moderate detuning, dependent on gradient order Open
Optical quantum memories are essential for quantum communications and photonic quantum technologies. Ensemble optical memories based on 3-level interactions are a popular basis for implementing these memories. All such memories, however, s…
View article: Electromagnetically-induced transparency assists the Raman gradient echo memory at moderate detuning, dependent on gradient order
Electromagnetically-induced transparency assists the Raman gradient echo memory at moderate detuning, dependent on gradient order Open
Optical quantum memories are essential for quantum communications and photonic quantum technologies. Ensemble optical memories based on 3-level interactions are a popular basis for implementing these memories. All such memories, however, s…
View article: Excitation of <sup>87</sup>Rb Rydberg atoms to nS and nD states (n≤68) via an optical nanofiber
Excitation of <sup>87</sup>Rb Rydberg atoms to nS and nD states (n≤68) via an optical nanofiber Open
Cold Rydberg atoms are a promising platform for quantum technologies, and combining them with optical waveguides has the potential to create robust quantum information devices. Here, we experimentally observe the excitation of cold rubidiu…
View article: Excitation of <sup>87</sup>Rb Rydberg atoms to nS and nD states (n≤68) via an optical nanofiber
Excitation of <sup>87</sup>Rb Rydberg atoms to nS and nD states (n≤68) via an optical nanofiber Open
Cold Rydberg atoms are a promising platform for quantum technologies, and combining them with optical waveguides has the potential to create robust quantum information devices. Here, we experimentally observe the excitation of cold rubidiu…
View article: Excitation of $^{87}$Rb Rydberg atoms to nS and nD states (n$\leq$68) via an optical nanofiber
Excitation of $^{87}$Rb Rydberg atoms to nS and nD states (n$\leq$68) via an optical nanofiber Open
Cold Rydberg atoms are a promising platform for quantum technologies and combining them with optical waveguides has the potential to create robust quantum information devices. Here, we experimentally observe the excitation of cold rubidium…
Machine learner optimization of optical nanofiber-based dipole traps Open
We use a machine learning optimizer to increase the number of rubidium-87 atoms trapped in an optical nanofiber-based two-color evanescent dipole trap array. Collisional blockade limits the average number of atoms per trap to about 0.5, an…
Machine learner optimization of optical nanofiber-based dipole traps for cold $^{87}$Rb atoms Open
In two-color optical nanofiber-based dipole traps for cold alkali atoms, the trap efficiency depends on the wavelength and intensity of light in the evanescent field, and the initial laser-cooling process. Typically, no more than one atom …
View article: Time-reversed and coherently enhanced memory: A single-mode quantum atom-optic memory without a cavity
Time-reversed and coherently enhanced memory: A single-mode quantum atom-optic memory without a cavity Open
The efficiency of an ensemble-based optical quantum memory depends critically\non the strength of the atom-light coupling. An optical cavity is an effective\nmethod to enhance atom-light coupling strength, with the drawback that cavities\n…
View article: High-performance Raman memory with spatio-temporal reversal
High-performance Raman memory with spatio-temporal reversal Open
A number of techniques exist to use an ensemble of atoms as a quantum memory for light. Many of these propose to use backward retrieval as a way to improve the storage and recall efficiency. We report on a demonstration of an off-resonant …
Atom-light interfaces for quantum information processing Open
The emergence of quantum physics from the page to the lab and the world at large is an exciting development of recent years. The prospects of absolutely secure communication and efficient simulation of physical systems have spurred great h…
View article: Direct imaging of slow, stored and stationary EIT polaritons
Direct imaging of slow, stored and stationary EIT polaritons Open
Stationary and slow light effects are of great interest for quantum information applications. Using laser-cooled Rb87 atoms, we performed side imaging of our atomic ensemble under slow and stationary light conditions, which allows direct c…
View article: Direct Imaging of Slow, Stored, and Stationary EIT Polaritons
Direct Imaging of Slow, Stored, and Stationary EIT Polaritons Open
Stationary and slow light effects are of great interest for quantum information applications. Using laser-cooled Rb87 atoms we have performed side imaging of our atomic ensemble under slow and stationary light conditions, which allows dire…
Highly efficient optical quantum memory with long coherence time in cold atoms Open
Optical quantum memory is an essential element for long distance quantum communication and photonic quantum computation protocols. The practical implementation of such protocols requires an efficient quantum memory with long coherence time…