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Observation of coherent optical information storage in an atomic medium using halted light pulses

Author

Listed:
  • Chien Liu

    (Rowland Institute for Science
    Division of Engineering and Applied Sciences)

  • Zachary Dutton

    (Rowland Institute for Science
    Harvard University)

  • Cyrus H. Behroozi

    (Rowland Institute for Science
    Division of Engineering and Applied Sciences)

  • Lene Vestergaard Hau

    (Rowland Institute for Science
    Division of Engineering and Applied Sciences
    Harvard University)

Abstract

Electromagnetically induced transparency1,2,3 is a quantum interference effect that permits the propagation of light through an otherwise opaque atomic medium; a ‘coupling’ laser is used to create the interference necessary to allow the transmission of resonant pulses from a ‘probe’ laser. This technique has been used4,5,6 to slow and spatially compress light pulses by seven orders of magnitude, resulting in their complete localization and containment within an atomic cloud4. Here we use electromagnetically induced transparency to bring laser pulses to a complete stop in a magnetically trapped, cold cloud of sodium atoms. Within the spatially localized pulse region, the atoms are in a superposition state determined by the amplitudes and phases of the coupling and probe laser fields. Upon sudden turn-off of the coupling laser, the compressed probe pulse is effectively stopped; coherent information initially contained in the laser fields is ‘frozen’ in the atomic medium for up to 1 ms. The coupling laser is turned back on at a later time and the probe pulse is regenerated: the stored coherence is read out and transferred back into the radiation field. We present a theoretical model that reveals that the system is self-adjusting to minimize dissipative loss during the ‘read’ and ‘write’ operations. We anticipate applications of this phenomenon for quantum information processing.

Suggested Citation

  • Chien Liu & Zachary Dutton & Cyrus H. Behroozi & Lene Vestergaard Hau, 2001. "Observation of coherent optical information storage in an atomic medium using halted light pulses," Nature, Nature, vol. 409(6819), pages 490-493, January.
    • Handle: RePEc:nat:nature:v:409:y:2001:i:6819:d:10.1038_35054017
    DOI: 10.1038/35054017
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    Cited by:

    1. Ann Bostrom & Ragnar E. Löfstedt, 2010. "Nanotechnology Risk Communication Past and Prologue," Risk Analysis, John Wiley & Sons, vol. 30(11), pages 1645-1662, November.
    2. Mandilara, Aikaterini & Ivić, Zoran & Čevizović, Dalibor & Pržulj, Željko, 2017. "Self-induced transparency of the optical phonons," Chaos, Solitons & Fractals, Elsevier, vol. 105(C), pages 14-20.
    3. Siyu Duan & Xin Su & Hongsong Qiu & Yushun Jiang & Jingbo Wu & Kebin Fan & Caihong Zhang & Xiaoqing Jia & Guanghao Zhu & Lin Kang & Xinglong Wu & Huabing Wang & Keyu Xia & Biaobing Jin & Jian Chen & P, 2024. "Linear and phase controllable terahertz frequency conversion via ultrafast breaking the bond of a meta-molecule," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    4. Ivić, Zoran & Čevizović, Dalibor & Pržulj, Željko & Lazarides, N. & Tsironis, G.P., 2021. "Dispersive properties of self–induced transparency in two–level media," Chaos, Solitons & Fractals, Elsevier, vol. 143(C).

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