Add to ORKGLoading cold atoms into a hollow-core optical fiber enables all-optical switching with just several hundred photons
Cold atoms trapped and guided in hollow-core photonic crystal fibers provide a scalable diffraction-...
The speed of light sets the maximum possible rate for transmission of information, in excess of 108 ...
We demonstrate all-optical switching at 1550 nm between two weakly coupled cores in a photonic cryst...
We demonstrate a fiber-optical switch that is activated at tiny energies corresponding to a few hund...
A Viewpoint on: Efficient All-Optical Switching Using Slow Light within a Hollow Fiber M. Bajcsy, S....
Cold atoms confined inside a hollow-core photonic-crystal fiber with core diameters of a few photon ...
We demonstrate a fiber-optical switch that operates with a few hundred photons per switching pulse. ...
Abstract—We review our recent experiments demonstrating a hollow-core photonic-crystal fiber loaded ...
We demonstrate all-optical switching at 1550nm in a photonic crystal fiber consisting of two weakly ...
[[abstract]]We propose an all-optical switch that utilizes the technique of storage and retrieval of...
We review our recent experiments demonstrating a hollow-core photonic-crystal fiber loaded with lase...
We describe the loading of laser-cooled rubidium atoms into a single-mode hollow-core photonic-cryst...
Coherent manipulation and interaction between atoms and light are the core ingredients in modern qua...
All-optical devices allow improvements in the speed of optical communication and computation systems...
We theoretically investigate the process of coupling cold atoms into the core of a hollow-core photo...
Cold atoms trapped and guided in hollow-core photonic crystal fibers provide a scalable diffraction-...
The speed of light sets the maximum possible rate for transmission of information, in excess of 108 ...
We demonstrate all-optical switching at 1550 nm between two weakly coupled cores in a photonic cryst...
We demonstrate a fiber-optical switch that is activated at tiny energies corresponding to a few hund...
A Viewpoint on: Efficient All-Optical Switching Using Slow Light within a Hollow Fiber M. Bajcsy, S....
Cold atoms confined inside a hollow-core photonic-crystal fiber with core diameters of a few photon ...
We demonstrate a fiber-optical switch that operates with a few hundred photons per switching pulse. ...
Abstract—We review our recent experiments demonstrating a hollow-core photonic-crystal fiber loaded ...
We demonstrate all-optical switching at 1550nm in a photonic crystal fiber consisting of two weakly ...
[[abstract]]We propose an all-optical switch that utilizes the technique of storage and retrieval of...
We review our recent experiments demonstrating a hollow-core photonic-crystal fiber loaded with lase...
We describe the loading of laser-cooled rubidium atoms into a single-mode hollow-core photonic-cryst...
Coherent manipulation and interaction between atoms and light are the core ingredients in modern qua...
All-optical devices allow improvements in the speed of optical communication and computation systems...
We theoretically investigate the process of coupling cold atoms into the core of a hollow-core photo...
Cold atoms trapped and guided in hollow-core photonic crystal fibers provide a scalable diffraction-...
The speed of light sets the maximum possible rate for transmission of information, in excess of 108 ...
We demonstrate all-optical switching at 1550 nm between two weakly coupled cores in a photonic cryst...