A solid-state light–matter interface at the single-photon level (original) (raw)

References

  1. Briegel, H.-J., Dür, W., Cirac, J. I. & Zoller, P. Quantum repeaters: The role of imperfect local operations in quantum communication. Phys. Rev. Lett. 81, 5932–5935 (1998)
    Article ADS CAS Google Scholar
  2. Duan, L.-M., Lukin, M. D., Cirac, J. I. & Zoller, P. Long-distance quantum communication with atomic ensembles and linear optics. Nature 414, 413–418 (2001)
    Article ADS CAS Google Scholar
  3. Simon, C. et al. Quantum repeaters with photon pair sources and multimode memories. Phys. Rev. Lett. 98, 190503 (2007)
    Article ADS Google Scholar
  4. Julsgaard, B., Sherson, J., Cirac, J. I., Fiurášek, J. & Polzik, E. S. Experimental demonstration of quantum memory for light. Nature 432, 482–486 (2004)
    Article ADS CAS Google Scholar
  5. Chanelière, T. et al. Storage and retrieval of single photons transmitted between remote quantum memories. Nature 438, 833–836 (2005)
    Article ADS Google Scholar
  6. Eisaman, M. D. et al. Electromagnetically induced transparency with tunable single-photon pulses. Nature 438, 837–841 (2005)
    Article ADS CAS Google Scholar
  7. Chou, C. W. et al. Measurement-induced entanglement for excitation stored in remote atomic ensembles. Nature 438, 828–832 (2005)
    Article ADS CAS Google Scholar
  8. Honda, K. et al. Storage and retrieval of a squeezed vacuum. Phys. Rev. Lett. 100, 093601 (2008)
    Article ADS Google Scholar
  9. Appel, J., Figueroa, E., Korystov, D., Lobino, M. & Lvovsky, A. I. Quantum memory for squeezed light. Phys. Rev. Lett. 100, 093602 (2008)
    Article ADS Google Scholar
  10. Boozer, A. D., Boca, A., Miller, R., Northup, T. E. & Kimble, H. J. Reversible state transfer between light and a single trapped atom. Phys. Rev. Lett. 98, 193601 (2007)
    Article ADS CAS Google Scholar
  11. Afzelius, M., Simon, C., de Riedmatten, H. & Gisin, N. Multimode quantum memory based on atomic frequency combs. Preprint at 〈http://arxiv.org/abs/0805.4164〉 (2008)
  12. Fleischhauer, M. & Lukin, M. D. Dark-state polaritons in electromagnetically induced transparency. Phys. Rev. Lett. 84, 5094–5097 (2000)
    Article ADS CAS Google Scholar
  13. Nunn, J. et al. Mapping broadband single-photon wave packets into an atomic memory. Phys. Rev. A 75, 011401 (2007)
    Article ADS Google Scholar
  14. Moiseev, S. A. & Kröll, S. Complete reconstruction of the quantum state of a single-photon wave packet absorbed by a Doppler-broadened transition. Phys. Rev. Lett. 87, 173601 (2001)
    Article ADS CAS Google Scholar
  15. Kraus, B. et al. Quantum memory for nonstationary light fields based on controlled reversible inhomogeneous broadening. Phys. Rev. A 73, 020302 (2006)
    Article ADS Google Scholar
  16. Böttger, T., Thiel, C. W., Sun, Y. & Cone, R. L. Optical decoherence and spectral diffusion at 1.5 μm in Er3+Y2SiO5 versus magnetic field, temperature, and Er3+ concentration. Phys. Rev. B 73, 075101 (2006)
    Article ADS Google Scholar
  17. Fraval, E., Sellars, M. J. & Longdell, J. J. Dynamic decoherence control of a solid-state nuclear-quadrupole qubit. Phys. Rev. Lett. 95, 030506 (2005)
    Article ADS CAS Google Scholar
  18. Longdell, J. J., Fraval, E., Sellars, M. J. & Manson, N. B. Stopped light with storage times greater than one second using electromagnetically induced transparency in a solid. Phys. Rev. Lett. 95, 063601 (2005)
    Article ADS CAS Google Scholar
  19. Alexander, A. L., Longdell, J. J., Sellars, M. J. & Manson, N. B. Photon echoes produced by switching electric fields. Phys. Rev. Lett. 96, 043602 (2006)
    Article ADS CAS Google Scholar
  20. Hétet, G., Longdell, J. J., Alexander, A. L., Lam, P. K. & Sellars, M. J. Electro-optic quantum memory for light using two-level atoms. Phys. Rev. Lett. 100, 023601 (2008)
    Article ADS Google Scholar
  21. Staudt, M. U. et al. Fidelity of an optical memory based on stimulated photon echoes. Phys. Rev. Lett. 98, 113601 (2007)
    Article ADS CAS Google Scholar
  22. Staudt, M. U. et al. Interference of multimode photon echoes generated in spatially separated solid-state atomic ensembles. Phys. Rev. Lett. 99, 173602 (2007)
    Article ADS CAS Google Scholar
  23. Ohlsson, N., Nilsson, M. & Kröll, S. Experimental investigation of delayed self-interference for single photons. Phys. Rev. A 68, 063812 (2003)
    Article ADS Google Scholar
  24. Hasegawa, Y. et al. Phase transfer in time-delayed interferometry with nuclear resonant scattering. Phys. Rev. Lett. 75, 2216–2219 (1995)
    Article ADS CAS Google Scholar
  25. Mitsunaga, M., Yano, R. & Uesugi, N. Spectrally programmed stimulated photon echo. Opt. Lett. 16, 264–266 (1991)
    Article ADS CAS Google Scholar
  26. Hastings-Simon, S. R. et al. Spectral hole burning spectroscopy in Nd3+:YVO4 . Phys. Rev. B 77, 125111 (2008)
    Article ADS Google Scholar
  27. Hesselink, W. H. & Wiersma, D. A. Picosecond photon echoes stimulated from an accumulated grating. Phys. Rev. Lett. 43, 1991–1994 (1979)
    Article ADS CAS Google Scholar
  28. Rippe, L., Julsgaard, B., Walther, A., Ying, Y. & Kröll, S. Experimental quantum-state tomography of a solid-state qubit. Phys. Rev. A 77, 022307 (2008)
    Article ADS Google Scholar
  29. de Seze, F., Lavielle, V., Lorgeré, I. & Le Gouët, J. L. Chirped pulse generation of a narrow absorption line in a Tm3+:YAG crystal. Opt. Commun. 223, 321–330 (2003)
    Article ADS CAS Google Scholar
  30. Gorshkov, A. V., André, A., Fleischhauer, M., Sørensen, A. S. & Lukin, M. D. Universal approach to optimal photon storage in atomic media. Phys. Rev. Lett. 98, 123601 (2007)
    Article ADS Google Scholar

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