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Literature DB >> 16020731

Controlled single-photon emission from a single trapped two-level atom.

B Darquié¹, M P A Jones, J Dingjan, J Beugnon, S Bergamini, Y Sortais, G Messin, A Browaeys, P Grangier.

Abstract

By illuminating an individual rubidium atom stored in a tight optical tweezer with short resonant light pulses, we created an efficient triggered source of single photons with a well-defined polarization. The measured intensity correlation of the emitted light pulses exhibits almost perfect antibunching. Such a source of high-rate, fully controlled single-photon pulses has many potential applications for quantum information processing.

Entities: Chemical

Year: 2005 PMID： 16020731 DOI： 10.1126/science.1113394

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

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Cited

5 in total

1. Room-Temperature, Highly Pure Single-Photon Sources from All-Inorganic Lead Halide Perovskite Quantum Dots.

Authors: Chenglian Zhu; Malwina Marczak; Leon Feld; Simon C Boehme; Caterina Bernasconi; Anastasiia Moskalenko; Ihor Cherniukh; Dmitry Dirin; Maryna I Bodnarchuk; Maksym V Kovalenko; Gabriele Rainò
Journal: Nano Lett Date: 2022-04-25 Impact factor: 12.262

Controlled single-photon emission from a single trapped two-level atom.

1. Room-Temperature, Highly Pure Single-Photon Sources from All-Inorganic Lead Halide Perovskite Quantum Dots.

2. Efficient single-mode photon-coupling device utilizing a nanofiber tip.

3. Collapsing a perfect superposition to a chosen quantum state without measurement.

4. Observation and quantification of the quantum dynamics of a strong-field excited multi-level system.

5. Stability and Bandgap Engineering of In_1-xGa_xSe Monolayer.

Controlled single-photon emission from a single trapped two-level atom.

1. Room-Temperature, Highly Pure Single-Photon Sources from All-Inorganic Lead Halide Perovskite Quantum Dots.

2. Efficient single-mode photon-coupling device utilizing a nanofiber tip.

3. Collapsing a perfect superposition to a chosen quantum state without measurement.

4. Observation and quantification of the quantum dynamics of a strong-field excited multi-level system.

5. Stability and Bandgap Engineering of In1-xGaxSe Monolayer.

5. Stability and Bandgap Engineering of In_1-xGa_xSe Monolayer.