Add to ORKGStoring information encoded in light is critical for realizing optical buffers for all-optical signal processing and quantum memories for quantum information processing. These proposals require efficient interaction between atoms and a well-defined optical mode. Photonic crystal fibres can enhance light-matter interactions and have engendered a broad range of nonlinear effects; however, the storage of light has proven elusive. Here, we report the first demonstration of an optical memory in a hollow-core photonic crystal fibre. We store gigahertz-bandwidth light in the hyperfine coherence of caesium atoms at room temperature using a far-detuned Raman interaction. We demonstrate a signal-to-noise ratio of 2.6:1 at the single-photon level and ...
A quantum memory with a high storage efficiency and a long coherence time is an essential element in...
Quantum memories, capable of controllably storing and releasing a photon, are a crucial component fo...
This thesis presents progress towards two complementary goals. The first part discusses our aim of b...
Storing information encoded in light is critical for realizing optical buffers for all-optical signa...
We report the storage and retrieval of broadband optical pulses using a Raman interaction in a room-...
We report the storage and retrieval of broadband optical pulses using a Raman interaction in a room-...
Photonic quantum information processing has emerged as a powerful platform for realising quantum-enh...
The generation of large multiphoton quantum states-for applications in computing, metrology and simu...
This thesis is about the experimental implementation of a high-speed and robust quantum memory for l...
Room-temperature, easy-to-operate quantum memories are essential building blocks for future long dis...
Photonic quantum information technologies rely on quantum memory for long-lived storage and coherent...
Room-temperature, easy-to-operate quantum memories are essential building blocks for future long dis...
Room-temperature, easy-to-operate quantum memories are essential building blocks for future long dis...
The non-interacting and high-speed nature of light makes it an ideal carrier of information that is ...
A quantum memory with a high storage efficiency and a long coherence time is an essential element in...
Quantum memories, capable of controllably storing and releasing a photon, are a crucial component fo...
This thesis presents progress towards two complementary goals. The first part discusses our aim of b...
Storing information encoded in light is critical for realizing optical buffers for all-optical signa...
We report the storage and retrieval of broadband optical pulses using a Raman interaction in a room-...
We report the storage and retrieval of broadband optical pulses using a Raman interaction in a room-...
Photonic quantum information processing has emerged as a powerful platform for realising quantum-enh...
The generation of large multiphoton quantum states-for applications in computing, metrology and simu...
This thesis is about the experimental implementation of a high-speed and robust quantum memory for l...
Room-temperature, easy-to-operate quantum memories are essential building blocks for future long dis...
Photonic quantum information technologies rely on quantum memory for long-lived storage and coherent...
Room-temperature, easy-to-operate quantum memories are essential building blocks for future long dis...
Room-temperature, easy-to-operate quantum memories are essential building blocks for future long dis...
The non-interacting and high-speed nature of light makes it an ideal carrier of information that is ...
A quantum memory with a high storage efficiency and a long coherence time is an essential element in...
Quantum memories, capable of controllably storing and releasing a photon, are a crucial component fo...
This thesis presents progress towards two complementary goals. The first part discusses our aim of b...