Abstract

In this paper we investigate the coherence properties of a quantum dot used as photon pair source, under two-photon resonant excitation in combination with an additional photo-neutralization laser. The photo-neutralization increases the efficiency of the excitation process and thus, the brightness of the source, by a factor of approximately 1.5 for biexciton-exciton pairs. This enhancement does not degrade the relevant coherences in the system; neither the single photon coherence time, nor the coherence of the excitation process.

© 2016 Optical Society of America

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  1. H. S. Nguyen, G. Sallen, M. Abbarchi, R. Ferreira, C. Voisin, P. Roussignol, G. Cassabois, and C. Diederichs, “Photoneutralization and slow capture of carriers in quantum dots probed by resonant excitation spectroscopy,” Phys. Rev. B 87, 115305 (2013).
    [Crossref]
  2. M. Metcalfe, S. M. Carr, A. Muller, G. S. Solomon, and J. Lawall, “Resolved sideband emission of InAs/GaAs quantum dots strained by surface acoustic waves,” Phys. Rev. Lett. 105, 037401 (2010).
    [Crossref] [PubMed]
  3. H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Optically gated resonant emission of single quantum dots,” Phys. Rev. Lett. 108, 057401 (2012).
    [Crossref] [PubMed]
  4. H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Ultra-coherent single photon source,” Appl. Phys. Lett. 99, 261904 (2011).
    [Crossref]
  5. R. M. Stevenson, R. J. Young, P. Atkinson, K. Cooper, D. A. Ritchie, and A. J. Shields, “A semiconductor source of triggered entangled photon pairs,” Nature 439, 179–182 (2006).
    [Crossref] [PubMed]
  6. H. J. Kimble, “The quantum internet,” Nature 453, 1023–1030 (2008).
    [Crossref] [PubMed]
  7. H. Jayakumar, A. Predojević, T. Huber, T. Kauten, G. S. Solomon, and G. Weihs, “Deterministic photon pairs and coherent optical control of a single quantum dot,” Phys. Rev. Lett. 110, 135505 (2013).
    [Crossref] [PubMed]
  8. M. Müller, S. Bounouar, K. D. Jöns, M. Glassl, and P. Michler, “On-demand generation of indistinguishable polarization-entangled photon pairs,” Nat. Photonics 8(3), 224–228 (2014).
    [Crossref]
  9. I. Straka, A. Predojević, T. Huber, L. Lachman, L. Butschek, M. Miková, M. Mičuda, G. S. Solomon, G. Weihs, M. Ježek, and R. Filip, “Quantum non-Gaussian depth of single-photon states,” Phys. Rev. Lett. 113, 223603 (2014)
    [Crossref] [PubMed]
  10. R. Hafenbrak, S. M. Ulrich, P. Michler, L. Wang, A. Rastelli, and O. G. Schmidt, “Triggered polarization-entangled photon pairs from a single quantum dot up to 30 K,” New J. Phys. 9, 315 (2007).
    [Crossref]
  11. A. Dousse, J. Suffczyński, A. Beveratos, O. Krebs, A. Lemaître, I. Sagnes, J. Bloch, P. Voisin, and P. Senellart, “Ultrabright source of entangled photon pairs,” Nature 466, 217–220 (2010).
    [Crossref] [PubMed]
  12. J. Claudon, J. Bleuse, N. S. Malik, M. Bazin, P. Jaffrennou, N. Gregersen, C. Sauvan, P. Lalanne, and J.-M. Gerard, “A highly efficient single-photon source based on a quantum dot in a photonic nanowire,” Nat. Photonics 4, 174–177 (2010).
  13. M. Ghali, K. Ohtani, Y. Ohno, and H. Ohno, “Generation and control of polarization-entangled photons from GaAs island quantum dots by an electric field,” Nat. Commun. 3, 661 (2012).
    [Crossref] [PubMed]
  14. R. Trotta, E. Zallo, C. Ortix, P. Atkinson, J. D. Plumhof, J. van den Brink, A. Rastelli, and O. G. Schmidt, “Universal recovery of the energy-level degeneracy of bright excitons in InGaAs quantum dots without a structure symmetry,” Phys. Rev. Lett. 109, 147401 (2012).
    [Crossref] [PubMed]
  15. G. Juska, V. Dimastrodonato, L. O. Mereni, A. Gocalinska, and E. Pelucchi, “Towards quantum-dot arrays of entangled photon emitters,” Nat. Photonics 7, 527–531 (2013).
    [Crossref]
  16. C. H. Bennett and D. P. DiVincenzo, “Quantum information and computation,” Nature 404, 247–255 (2000).
    [Crossref] [PubMed]
  17. E. B. Flagg, A. Muller, J. W. Robertson, S. Founta, D. G. Deppe, M. Xiao, W. Ma, G. J. Salamo, and C. K. Shih, “Resonantly driven coherent oscillations in a solid-state quantum emitter,” Nat. Phys. 5(3), 203–207 (2009).
    [Crossref]
  18. Y.-M. He, Y. He, Y.-J. Wei, D. Wu, M. Atature, C. Schneider, S. Höfling, M. Kamp, C.-Y. Lu, and J.-W. Pan, “On-demand semiconductor single-photon source with near-unity indistinguishability,” Nat. Nano. 8, 213–217 (2013).
    [Crossref]
  19. T. Huber, A. Predojević, D. Föger, G. Solomon, and G. Weihs, “Optimal excitation conditions for indistinguishable photons from quantum dots,” New J. Phys. 17(12), 123025 (2015).
    [Crossref]
  20. T. Huber, L. Ostermann, M. Prilmüller, G. S. Solomon, H. Ritsch, G. Weihs, and A. Predojević, “Coherence and degree of time-bin entanglement from quantum dots,” Phys. Rev. B 93, 201301(R) (2016).
    [Crossref]
  21. H. Jayakumar, A. Predojević, T. Kauten, T. Huber, G. S. Solomon, and G. Weihs, “Time-bin entangled photons from a quantum dot,” Nat. Commun. 5, 4251 (2014).
    [Crossref] [PubMed]
  22. R. T. Thew, S. Tanzilli, W. Tittel, H. Zbinden, and N. Gisin, “Experimental investigation of the robustness of partially entangled qubits over 11 km,” Phys. Rev. A 66, 062304 (2002).
    [Crossref]
  23. I. Marcikic, H. de Riedmatten, W. Tittel, H. Zbinden, and N. Gisin, “Long-distance teleportation of qubits at telecommunication wavelengths,” Nature 421, 509–513 (2003).
    [Crossref] [PubMed]
  24. L. Besombes, K. Kheng, L. Marsal, and H. Mariette, “Few-particle effects in single CdTe quantum dots,” Phys. Rev. B 65, 121314 (2002).
    [Crossref]
  25. M. Abbarchi, F. Troiani, C. Mastrandrea, G. Goldoni, T. Kuroda, T. Mano, K. Sakoda, N. Koguchi, S. Sanguinetti, A. Vinattieri, and M. Gurioli, “Spectral diffusion and line broadening in single self-assembled GaAs / AlGaAs quantum dot photoluminescence,” Appl. Phys. Lett. 93(16), 162101 (2008).
    [Crossref]
  26. A. Berthelot, I. Favero, G. Cassabois, C. Voisin, C. Delalande, P. Roussignol, R. Ferreira, and J. M. Gerard, “Unconventional motional narrowing in the optical spectrum of a semiconductor quantum dot,” Nat. Phys. 2, 759–764 (2006).
    [Crossref]
  27. G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
    [Crossref]
  28. T. Kuroda, T. Belhadj, M. Abbarchi, C. Mastrandrea, M. Gurioli, T. Mano, N. Ikeda, Y. Sugimoto, K. Asakawa, N. Koguchi, K. Sakoda, B. Urbaszek, T. Amand, and X. Marie, “Bunching visibility for correlated photons from single GaAs quantum dots,” Phys. Rev. B 79, 035330 (2009).
    [Crossref]
  29. D. Chen, G. R. Lander, K. S. Krowpman, G. S. Solomon, and E. B. Flagg, “Characterization of the local charge environment of a single quantum dot via resonance fluorescence,” Phys. Rev. B 93, 115307 (2016)
    [Crossref]
  30. D. F. V. James, P. G. Kwiat, W. J. Munro, and A. G. White, “Measurement of qubits,” Phys. Rev. A 64, 052312 (2001).
    [Crossref]
  31. H. Takesue and Y. Noguchi, “Implementation of quantum state tomography for time-bin entangled photon pairs,” Opt. Express 17(13), 10976–10989 (2009).
    [Crossref] [PubMed]

2016 (2)

T. Huber, L. Ostermann, M. Prilmüller, G. S. Solomon, H. Ritsch, G. Weihs, and A. Predojević, “Coherence and degree of time-bin entanglement from quantum dots,” Phys. Rev. B 93, 201301(R) (2016).
[Crossref]

D. Chen, G. R. Lander, K. S. Krowpman, G. S. Solomon, and E. B. Flagg, “Characterization of the local charge environment of a single quantum dot via resonance fluorescence,” Phys. Rev. B 93, 115307 (2016)
[Crossref]

2015 (1)

T. Huber, A. Predojević, D. Föger, G. Solomon, and G. Weihs, “Optimal excitation conditions for indistinguishable photons from quantum dots,” New J. Phys. 17(12), 123025 (2015).
[Crossref]

2014 (3)

H. Jayakumar, A. Predojević, T. Kauten, T. Huber, G. S. Solomon, and G. Weihs, “Time-bin entangled photons from a quantum dot,” Nat. Commun. 5, 4251 (2014).
[Crossref] [PubMed]

M. Müller, S. Bounouar, K. D. Jöns, M. Glassl, and P. Michler, “On-demand generation of indistinguishable polarization-entangled photon pairs,” Nat. Photonics 8(3), 224–228 (2014).
[Crossref]

I. Straka, A. Predojević, T. Huber, L. Lachman, L. Butschek, M. Miková, M. Mičuda, G. S. Solomon, G. Weihs, M. Ježek, and R. Filip, “Quantum non-Gaussian depth of single-photon states,” Phys. Rev. Lett. 113, 223603 (2014)
[Crossref] [PubMed]

2013 (4)

H. Jayakumar, A. Predojević, T. Huber, T. Kauten, G. S. Solomon, and G. Weihs, “Deterministic photon pairs and coherent optical control of a single quantum dot,” Phys. Rev. Lett. 110, 135505 (2013).
[Crossref] [PubMed]

H. S. Nguyen, G. Sallen, M. Abbarchi, R. Ferreira, C. Voisin, P. Roussignol, G. Cassabois, and C. Diederichs, “Photoneutralization and slow capture of carriers in quantum dots probed by resonant excitation spectroscopy,” Phys. Rev. B 87, 115305 (2013).
[Crossref]

G. Juska, V. Dimastrodonato, L. O. Mereni, A. Gocalinska, and E. Pelucchi, “Towards quantum-dot arrays of entangled photon emitters,” Nat. Photonics 7, 527–531 (2013).
[Crossref]

Y.-M. He, Y. He, Y.-J. Wei, D. Wu, M. Atature, C. Schneider, S. Höfling, M. Kamp, C.-Y. Lu, and J.-W. Pan, “On-demand semiconductor single-photon source with near-unity indistinguishability,” Nat. Nano. 8, 213–217 (2013).
[Crossref]

2012 (3)

M. Ghali, K. Ohtani, Y. Ohno, and H. Ohno, “Generation and control of polarization-entangled photons from GaAs island quantum dots by an electric field,” Nat. Commun. 3, 661 (2012).
[Crossref] [PubMed]

R. Trotta, E. Zallo, C. Ortix, P. Atkinson, J. D. Plumhof, J. van den Brink, A. Rastelli, and O. G. Schmidt, “Universal recovery of the energy-level degeneracy of bright excitons in InGaAs quantum dots without a structure symmetry,” Phys. Rev. Lett. 109, 147401 (2012).
[Crossref] [PubMed]

H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Optically gated resonant emission of single quantum dots,” Phys. Rev. Lett. 108, 057401 (2012).
[Crossref] [PubMed]

2011 (1)

H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Ultra-coherent single photon source,” Appl. Phys. Lett. 99, 261904 (2011).
[Crossref]

2010 (4)

M. Metcalfe, S. M. Carr, A. Muller, G. S. Solomon, and J. Lawall, “Resolved sideband emission of InAs/GaAs quantum dots strained by surface acoustic waves,” Phys. Rev. Lett. 105, 037401 (2010).
[Crossref] [PubMed]

A. Dousse, J. Suffczyński, A. Beveratos, O. Krebs, A. Lemaître, I. Sagnes, J. Bloch, P. Voisin, and P. Senellart, “Ultrabright source of entangled photon pairs,” Nature 466, 217–220 (2010).
[Crossref] [PubMed]

J. Claudon, J. Bleuse, N. S. Malik, M. Bazin, P. Jaffrennou, N. Gregersen, C. Sauvan, P. Lalanne, and J.-M. Gerard, “A highly efficient single-photon source based on a quantum dot in a photonic nanowire,” Nat. Photonics 4, 174–177 (2010).

G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
[Crossref]

2009 (3)

T. Kuroda, T. Belhadj, M. Abbarchi, C. Mastrandrea, M. Gurioli, T. Mano, N. Ikeda, Y. Sugimoto, K. Asakawa, N. Koguchi, K. Sakoda, B. Urbaszek, T. Amand, and X. Marie, “Bunching visibility for correlated photons from single GaAs quantum dots,” Phys. Rev. B 79, 035330 (2009).
[Crossref]

H. Takesue and Y. Noguchi, “Implementation of quantum state tomography for time-bin entangled photon pairs,” Opt. Express 17(13), 10976–10989 (2009).
[Crossref] [PubMed]

E. B. Flagg, A. Muller, J. W. Robertson, S. Founta, D. G. Deppe, M. Xiao, W. Ma, G. J. Salamo, and C. K. Shih, “Resonantly driven coherent oscillations in a solid-state quantum emitter,” Nat. Phys. 5(3), 203–207 (2009).
[Crossref]

2008 (2)

H. J. Kimble, “The quantum internet,” Nature 453, 1023–1030 (2008).
[Crossref] [PubMed]

M. Abbarchi, F. Troiani, C. Mastrandrea, G. Goldoni, T. Kuroda, T. Mano, K. Sakoda, N. Koguchi, S. Sanguinetti, A. Vinattieri, and M. Gurioli, “Spectral diffusion and line broadening in single self-assembled GaAs / AlGaAs quantum dot photoluminescence,” Appl. Phys. Lett. 93(16), 162101 (2008).
[Crossref]

2007 (1)

R. Hafenbrak, S. M. Ulrich, P. Michler, L. Wang, A. Rastelli, and O. G. Schmidt, “Triggered polarization-entangled photon pairs from a single quantum dot up to 30 K,” New J. Phys. 9, 315 (2007).
[Crossref]

2006 (2)

R. M. Stevenson, R. J. Young, P. Atkinson, K. Cooper, D. A. Ritchie, and A. J. Shields, “A semiconductor source of triggered entangled photon pairs,” Nature 439, 179–182 (2006).
[Crossref] [PubMed]

A. Berthelot, I. Favero, G. Cassabois, C. Voisin, C. Delalande, P. Roussignol, R. Ferreira, and J. M. Gerard, “Unconventional motional narrowing in the optical spectrum of a semiconductor quantum dot,” Nat. Phys. 2, 759–764 (2006).
[Crossref]

2003 (1)

I. Marcikic, H. de Riedmatten, W. Tittel, H. Zbinden, and N. Gisin, “Long-distance teleportation of qubits at telecommunication wavelengths,” Nature 421, 509–513 (2003).
[Crossref] [PubMed]

2002 (2)

L. Besombes, K. Kheng, L. Marsal, and H. Mariette, “Few-particle effects in single CdTe quantum dots,” Phys. Rev. B 65, 121314 (2002).
[Crossref]

R. T. Thew, S. Tanzilli, W. Tittel, H. Zbinden, and N. Gisin, “Experimental investigation of the robustness of partially entangled qubits over 11 km,” Phys. Rev. A 66, 062304 (2002).
[Crossref]

2001 (1)

D. F. V. James, P. G. Kwiat, W. J. Munro, and A. G. White, “Measurement of qubits,” Phys. Rev. A 64, 052312 (2001).
[Crossref]

2000 (1)

C. H. Bennett and D. P. DiVincenzo, “Quantum information and computation,” Nature 404, 247–255 (2000).
[Crossref] [PubMed]

Abbarchi, M.

H. S. Nguyen, G. Sallen, M. Abbarchi, R. Ferreira, C. Voisin, P. Roussignol, G. Cassabois, and C. Diederichs, “Photoneutralization and slow capture of carriers in quantum dots probed by resonant excitation spectroscopy,” Phys. Rev. B 87, 115305 (2013).
[Crossref]

T. Kuroda, T. Belhadj, M. Abbarchi, C. Mastrandrea, M. Gurioli, T. Mano, N. Ikeda, Y. Sugimoto, K. Asakawa, N. Koguchi, K. Sakoda, B. Urbaszek, T. Amand, and X. Marie, “Bunching visibility for correlated photons from single GaAs quantum dots,” Phys. Rev. B 79, 035330 (2009).
[Crossref]

M. Abbarchi, F. Troiani, C. Mastrandrea, G. Goldoni, T. Kuroda, T. Mano, K. Sakoda, N. Koguchi, S. Sanguinetti, A. Vinattieri, and M. Gurioli, “Spectral diffusion and line broadening in single self-assembled GaAs / AlGaAs quantum dot photoluminescence,” Appl. Phys. Lett. 93(16), 162101 (2008).
[Crossref]

Aichele, T.

G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
[Crossref]

Amand, T.

T. Kuroda, T. Belhadj, M. Abbarchi, C. Mastrandrea, M. Gurioli, T. Mano, N. Ikeda, Y. Sugimoto, K. Asakawa, N. Koguchi, K. Sakoda, B. Urbaszek, T. Amand, and X. Marie, “Bunching visibility for correlated photons from single GaAs quantum dots,” Phys. Rev. B 79, 035330 (2009).
[Crossref]

Andre, R.

G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
[Crossref]

Asakawa, K.

T. Kuroda, T. Belhadj, M. Abbarchi, C. Mastrandrea, M. Gurioli, T. Mano, N. Ikeda, Y. Sugimoto, K. Asakawa, N. Koguchi, K. Sakoda, B. Urbaszek, T. Amand, and X. Marie, “Bunching visibility for correlated photons from single GaAs quantum dots,” Phys. Rev. B 79, 035330 (2009).
[Crossref]

Atature, M.

Y.-M. He, Y. He, Y.-J. Wei, D. Wu, M. Atature, C. Schneider, S. Höfling, M. Kamp, C.-Y. Lu, and J.-W. Pan, “On-demand semiconductor single-photon source with near-unity indistinguishability,” Nat. Nano. 8, 213–217 (2013).
[Crossref]

Atkinson, P.

R. Trotta, E. Zallo, C. Ortix, P. Atkinson, J. D. Plumhof, J. van den Brink, A. Rastelli, and O. G. Schmidt, “Universal recovery of the energy-level degeneracy of bright excitons in InGaAs quantum dots without a structure symmetry,” Phys. Rev. Lett. 109, 147401 (2012).
[Crossref] [PubMed]

R. M. Stevenson, R. J. Young, P. Atkinson, K. Cooper, D. A. Ritchie, and A. J. Shields, “A semiconductor source of triggered entangled photon pairs,” Nature 439, 179–182 (2006).
[Crossref] [PubMed]

Bazin, M.

J. Claudon, J. Bleuse, N. S. Malik, M. Bazin, P. Jaffrennou, N. Gregersen, C. Sauvan, P. Lalanne, and J.-M. Gerard, “A highly efficient single-photon source based on a quantum dot in a photonic nanowire,” Nat. Photonics 4, 174–177 (2010).

Belhadj, T.

T. Kuroda, T. Belhadj, M. Abbarchi, C. Mastrandrea, M. Gurioli, T. Mano, N. Ikeda, Y. Sugimoto, K. Asakawa, N. Koguchi, K. Sakoda, B. Urbaszek, T. Amand, and X. Marie, “Bunching visibility for correlated photons from single GaAs quantum dots,” Phys. Rev. B 79, 035330 (2009).
[Crossref]

Bennett, C. H.

C. H. Bennett and D. P. DiVincenzo, “Quantum information and computation,” Nature 404, 247–255 (2000).
[Crossref] [PubMed]

Berthelot, A.

A. Berthelot, I. Favero, G. Cassabois, C. Voisin, C. Delalande, P. Roussignol, R. Ferreira, and J. M. Gerard, “Unconventional motional narrowing in the optical spectrum of a semiconductor quantum dot,” Nat. Phys. 2, 759–764 (2006).
[Crossref]

Besombes, L.

G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
[Crossref]

L. Besombes, K. Kheng, L. Marsal, and H. Mariette, “Few-particle effects in single CdTe quantum dots,” Phys. Rev. B 65, 121314 (2002).
[Crossref]

Beveratos, A.

A. Dousse, J. Suffczyński, A. Beveratos, O. Krebs, A. Lemaître, I. Sagnes, J. Bloch, P. Voisin, and P. Senellart, “Ultrabright source of entangled photon pairs,” Nature 466, 217–220 (2010).
[Crossref] [PubMed]

Bleuse, J.

J. Claudon, J. Bleuse, N. S. Malik, M. Bazin, P. Jaffrennou, N. Gregersen, C. Sauvan, P. Lalanne, and J.-M. Gerard, “A highly efficient single-photon source based on a quantum dot in a photonic nanowire,” Nat. Photonics 4, 174–177 (2010).

Bloch, J.

A. Dousse, J. Suffczyński, A. Beveratos, O. Krebs, A. Lemaître, I. Sagnes, J. Bloch, P. Voisin, and P. Senellart, “Ultrabright source of entangled photon pairs,” Nature 466, 217–220 (2010).
[Crossref] [PubMed]

Bougerol, C.

G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
[Crossref]

Bounouar, S.

M. Müller, S. Bounouar, K. D. Jöns, M. Glassl, and P. Michler, “On-demand generation of indistinguishable polarization-entangled photon pairs,” Nat. Photonics 8(3), 224–228 (2014).
[Crossref]

Butschek, L.

I. Straka, A. Predojević, T. Huber, L. Lachman, L. Butschek, M. Miková, M. Mičuda, G. S. Solomon, G. Weihs, M. Ježek, and R. Filip, “Quantum non-Gaussian depth of single-photon states,” Phys. Rev. Lett. 113, 223603 (2014)
[Crossref] [PubMed]

Carr, S. M.

M. Metcalfe, S. M. Carr, A. Muller, G. S. Solomon, and J. Lawall, “Resolved sideband emission of InAs/GaAs quantum dots strained by surface acoustic waves,” Phys. Rev. Lett. 105, 037401 (2010).
[Crossref] [PubMed]

Cassabois, G.

H. S. Nguyen, G. Sallen, M. Abbarchi, R. Ferreira, C. Voisin, P. Roussignol, G. Cassabois, and C. Diederichs, “Photoneutralization and slow capture of carriers in quantum dots probed by resonant excitation spectroscopy,” Phys. Rev. B 87, 115305 (2013).
[Crossref]

H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Optically gated resonant emission of single quantum dots,” Phys. Rev. Lett. 108, 057401 (2012).
[Crossref] [PubMed]

H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Ultra-coherent single photon source,” Appl. Phys. Lett. 99, 261904 (2011).
[Crossref]

A. Berthelot, I. Favero, G. Cassabois, C. Voisin, C. Delalande, P. Roussignol, R. Ferreira, and J. M. Gerard, “Unconventional motional narrowing in the optical spectrum of a semiconductor quantum dot,” Nat. Phys. 2, 759–764 (2006).
[Crossref]

Chen, D.

D. Chen, G. R. Lander, K. S. Krowpman, G. S. Solomon, and E. B. Flagg, “Characterization of the local charge environment of a single quantum dot via resonance fluorescence,” Phys. Rev. B 93, 115307 (2016)
[Crossref]

Claudon, J.

J. Claudon, J. Bleuse, N. S. Malik, M. Bazin, P. Jaffrennou, N. Gregersen, C. Sauvan, P. Lalanne, and J.-M. Gerard, “A highly efficient single-photon source based on a quantum dot in a photonic nanowire,” Nat. Photonics 4, 174–177 (2010).

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M. Ghali, K. Ohtani, Y. Ohno, and H. Ohno, “Generation and control of polarization-entangled photons from GaAs island quantum dots by an electric field,” Nat. Commun. 3, 661 (2012).
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M. Ghali, K. Ohtani, Y. Ohno, and H. Ohno, “Generation and control of polarization-entangled photons from GaAs island quantum dots by an electric field,” Nat. Commun. 3, 661 (2012).
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R. Trotta, E. Zallo, C. Ortix, P. Atkinson, J. D. Plumhof, J. van den Brink, A. Rastelli, and O. G. Schmidt, “Universal recovery of the energy-level degeneracy of bright excitons in InGaAs quantum dots without a structure symmetry,” Phys. Rev. Lett. 109, 147401 (2012).
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T. Huber, L. Ostermann, M. Prilmüller, G. S. Solomon, H. Ritsch, G. Weihs, and A. Predojević, “Coherence and degree of time-bin entanglement from quantum dots,” Phys. Rev. B 93, 201301(R) (2016).
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Y.-M. He, Y. He, Y.-J. Wei, D. Wu, M. Atature, C. Schneider, S. Höfling, M. Kamp, C.-Y. Lu, and J.-W. Pan, “On-demand semiconductor single-photon source with near-unity indistinguishability,” Nat. Nano. 8, 213–217 (2013).
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Pelucchi, E.

G. Juska, V. Dimastrodonato, L. O. Mereni, A. Gocalinska, and E. Pelucchi, “Towards quantum-dot arrays of entangled photon emitters,” Nat. Photonics 7, 527–531 (2013).
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R. Trotta, E. Zallo, C. Ortix, P. Atkinson, J. D. Plumhof, J. van den Brink, A. Rastelli, and O. G. Schmidt, “Universal recovery of the energy-level degeneracy of bright excitons in InGaAs quantum dots without a structure symmetry,” Phys. Rev. Lett. 109, 147401 (2012).
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G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
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T. Huber, L. Ostermann, M. Prilmüller, G. S. Solomon, H. Ritsch, G. Weihs, and A. Predojević, “Coherence and degree of time-bin entanglement from quantum dots,” Phys. Rev. B 93, 201301(R) (2016).
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T. Huber, A. Predojević, D. Föger, G. Solomon, and G. Weihs, “Optimal excitation conditions for indistinguishable photons from quantum dots,” New J. Phys. 17(12), 123025 (2015).
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I. Straka, A. Predojević, T. Huber, L. Lachman, L. Butschek, M. Miková, M. Mičuda, G. S. Solomon, G. Weihs, M. Ježek, and R. Filip, “Quantum non-Gaussian depth of single-photon states,” Phys. Rev. Lett. 113, 223603 (2014)
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H. Jayakumar, A. Predojević, T. Kauten, T. Huber, G. S. Solomon, and G. Weihs, “Time-bin entangled photons from a quantum dot,” Nat. Commun. 5, 4251 (2014).
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H. Jayakumar, A. Predojević, T. Huber, T. Kauten, G. S. Solomon, and G. Weihs, “Deterministic photon pairs and coherent optical control of a single quantum dot,” Phys. Rev. Lett. 110, 135505 (2013).
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Prilmüller, M.

T. Huber, L. Ostermann, M. Prilmüller, G. S. Solomon, H. Ritsch, G. Weihs, and A. Predojević, “Coherence and degree of time-bin entanglement from quantum dots,” Phys. Rev. B 93, 201301(R) (2016).
[Crossref]

Rastelli, A.

R. Trotta, E. Zallo, C. Ortix, P. Atkinson, J. D. Plumhof, J. van den Brink, A. Rastelli, and O. G. Schmidt, “Universal recovery of the energy-level degeneracy of bright excitons in InGaAs quantum dots without a structure symmetry,” Phys. Rev. Lett. 109, 147401 (2012).
[Crossref] [PubMed]

R. Hafenbrak, S. M. Ulrich, P. Michler, L. Wang, A. Rastelli, and O. G. Schmidt, “Triggered polarization-entangled photon pairs from a single quantum dot up to 30 K,” New J. Phys. 9, 315 (2007).
[Crossref]

Richard, M.

G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
[Crossref]

Ritchie, D. A.

R. M. Stevenson, R. J. Young, P. Atkinson, K. Cooper, D. A. Ritchie, and A. J. Shields, “A semiconductor source of triggered entangled photon pairs,” Nature 439, 179–182 (2006).
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Ritsch, H.

T. Huber, L. Ostermann, M. Prilmüller, G. S. Solomon, H. Ritsch, G. Weihs, and A. Predojević, “Coherence and degree of time-bin entanglement from quantum dots,” Phys. Rev. B 93, 201301(R) (2016).
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Robertson, J. W.

E. B. Flagg, A. Muller, J. W. Robertson, S. Founta, D. G. Deppe, M. Xiao, W. Ma, G. J. Salamo, and C. K. Shih, “Resonantly driven coherent oscillations in a solid-state quantum emitter,” Nat. Phys. 5(3), 203–207 (2009).
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Roussignol, P.

H. S. Nguyen, G. Sallen, M. Abbarchi, R. Ferreira, C. Voisin, P. Roussignol, G. Cassabois, and C. Diederichs, “Photoneutralization and slow capture of carriers in quantum dots probed by resonant excitation spectroscopy,” Phys. Rev. B 87, 115305 (2013).
[Crossref]

H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Optically gated resonant emission of single quantum dots,” Phys. Rev. Lett. 108, 057401 (2012).
[Crossref] [PubMed]

H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Ultra-coherent single photon source,” Appl. Phys. Lett. 99, 261904 (2011).
[Crossref]

A. Berthelot, I. Favero, G. Cassabois, C. Voisin, C. Delalande, P. Roussignol, R. Ferreira, and J. M. Gerard, “Unconventional motional narrowing in the optical spectrum of a semiconductor quantum dot,” Nat. Phys. 2, 759–764 (2006).
[Crossref]

Sagnes, I.

A. Dousse, J. Suffczyński, A. Beveratos, O. Krebs, A. Lemaître, I. Sagnes, J. Bloch, P. Voisin, and P. Senellart, “Ultrabright source of entangled photon pairs,” Nature 466, 217–220 (2010).
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Sakoda, K.

T. Kuroda, T. Belhadj, M. Abbarchi, C. Mastrandrea, M. Gurioli, T. Mano, N. Ikeda, Y. Sugimoto, K. Asakawa, N. Koguchi, K. Sakoda, B. Urbaszek, T. Amand, and X. Marie, “Bunching visibility for correlated photons from single GaAs quantum dots,” Phys. Rev. B 79, 035330 (2009).
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M. Abbarchi, F. Troiani, C. Mastrandrea, G. Goldoni, T. Kuroda, T. Mano, K. Sakoda, N. Koguchi, S. Sanguinetti, A. Vinattieri, and M. Gurioli, “Spectral diffusion and line broadening in single self-assembled GaAs / AlGaAs quantum dot photoluminescence,” Appl. Phys. Lett. 93(16), 162101 (2008).
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E. B. Flagg, A. Muller, J. W. Robertson, S. Founta, D. G. Deppe, M. Xiao, W. Ma, G. J. Salamo, and C. K. Shih, “Resonantly driven coherent oscillations in a solid-state quantum emitter,” Nat. Phys. 5(3), 203–207 (2009).
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H. S. Nguyen, G. Sallen, M. Abbarchi, R. Ferreira, C. Voisin, P. Roussignol, G. Cassabois, and C. Diederichs, “Photoneutralization and slow capture of carriers in quantum dots probed by resonant excitation spectroscopy,” Phys. Rev. B 87, 115305 (2013).
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H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Optically gated resonant emission of single quantum dots,” Phys. Rev. Lett. 108, 057401 (2012).
[Crossref] [PubMed]

H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Ultra-coherent single photon source,” Appl. Phys. Lett. 99, 261904 (2011).
[Crossref]

G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
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M. Abbarchi, F. Troiani, C. Mastrandrea, G. Goldoni, T. Kuroda, T. Mano, K. Sakoda, N. Koguchi, S. Sanguinetti, A. Vinattieri, and M. Gurioli, “Spectral diffusion and line broadening in single self-assembled GaAs / AlGaAs quantum dot photoluminescence,” Appl. Phys. Lett. 93(16), 162101 (2008).
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J. Claudon, J. Bleuse, N. S. Malik, M. Bazin, P. Jaffrennou, N. Gregersen, C. Sauvan, P. Lalanne, and J.-M. Gerard, “A highly efficient single-photon source based on a quantum dot in a photonic nanowire,” Nat. Photonics 4, 174–177 (2010).

Schmidt, O. G.

R. Trotta, E. Zallo, C. Ortix, P. Atkinson, J. D. Plumhof, J. van den Brink, A. Rastelli, and O. G. Schmidt, “Universal recovery of the energy-level degeneracy of bright excitons in InGaAs quantum dots without a structure symmetry,” Phys. Rev. Lett. 109, 147401 (2012).
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R. Hafenbrak, S. M. Ulrich, P. Michler, L. Wang, A. Rastelli, and O. G. Schmidt, “Triggered polarization-entangled photon pairs from a single quantum dot up to 30 K,” New J. Phys. 9, 315 (2007).
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Schneider, C.

Y.-M. He, Y. He, Y.-J. Wei, D. Wu, M. Atature, C. Schneider, S. Höfling, M. Kamp, C.-Y. Lu, and J.-W. Pan, “On-demand semiconductor single-photon source with near-unity indistinguishability,” Nat. Nano. 8, 213–217 (2013).
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A. Dousse, J. Suffczyński, A. Beveratos, O. Krebs, A. Lemaître, I. Sagnes, J. Bloch, P. Voisin, and P. Senellart, “Ultrabright source of entangled photon pairs,” Nature 466, 217–220 (2010).
[Crossref] [PubMed]

Shields, A. J.

R. M. Stevenson, R. J. Young, P. Atkinson, K. Cooper, D. A. Ritchie, and A. J. Shields, “A semiconductor source of triggered entangled photon pairs,” Nature 439, 179–182 (2006).
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Shih, C. K.

E. B. Flagg, A. Muller, J. W. Robertson, S. Founta, D. G. Deppe, M. Xiao, W. Ma, G. J. Salamo, and C. K. Shih, “Resonantly driven coherent oscillations in a solid-state quantum emitter,” Nat. Phys. 5(3), 203–207 (2009).
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Solomon, G.

T. Huber, A. Predojević, D. Föger, G. Solomon, and G. Weihs, “Optimal excitation conditions for indistinguishable photons from quantum dots,” New J. Phys. 17(12), 123025 (2015).
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Solomon, G. S.

T. Huber, L. Ostermann, M. Prilmüller, G. S. Solomon, H. Ritsch, G. Weihs, and A. Predojević, “Coherence and degree of time-bin entanglement from quantum dots,” Phys. Rev. B 93, 201301(R) (2016).
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D. Chen, G. R. Lander, K. S. Krowpman, G. S. Solomon, and E. B. Flagg, “Characterization of the local charge environment of a single quantum dot via resonance fluorescence,” Phys. Rev. B 93, 115307 (2016)
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H. Jayakumar, A. Predojević, T. Kauten, T. Huber, G. S. Solomon, and G. Weihs, “Time-bin entangled photons from a quantum dot,” Nat. Commun. 5, 4251 (2014).
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I. Straka, A. Predojević, T. Huber, L. Lachman, L. Butschek, M. Miková, M. Mičuda, G. S. Solomon, G. Weihs, M. Ježek, and R. Filip, “Quantum non-Gaussian depth of single-photon states,” Phys. Rev. Lett. 113, 223603 (2014)
[Crossref] [PubMed]

H. Jayakumar, A. Predojević, T. Huber, T. Kauten, G. S. Solomon, and G. Weihs, “Deterministic photon pairs and coherent optical control of a single quantum dot,” Phys. Rev. Lett. 110, 135505 (2013).
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M. Metcalfe, S. M. Carr, A. Muller, G. S. Solomon, and J. Lawall, “Resolved sideband emission of InAs/GaAs quantum dots strained by surface acoustic waves,” Phys. Rev. Lett. 105, 037401 (2010).
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R. M. Stevenson, R. J. Young, P. Atkinson, K. Cooper, D. A. Ritchie, and A. J. Shields, “A semiconductor source of triggered entangled photon pairs,” Nature 439, 179–182 (2006).
[Crossref] [PubMed]

Straka, I.

I. Straka, A. Predojević, T. Huber, L. Lachman, L. Butschek, M. Miková, M. Mičuda, G. S. Solomon, G. Weihs, M. Ježek, and R. Filip, “Quantum non-Gaussian depth of single-photon states,” Phys. Rev. Lett. 113, 223603 (2014)
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Suffczynski, J.

A. Dousse, J. Suffczyński, A. Beveratos, O. Krebs, A. Lemaître, I. Sagnes, J. Bloch, P. Voisin, and P. Senellart, “Ultrabright source of entangled photon pairs,” Nature 466, 217–220 (2010).
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Sugimoto, Y.

T. Kuroda, T. Belhadj, M. Abbarchi, C. Mastrandrea, M. Gurioli, T. Mano, N. Ikeda, Y. Sugimoto, K. Asakawa, N. Koguchi, K. Sakoda, B. Urbaszek, T. Amand, and X. Marie, “Bunching visibility for correlated photons from single GaAs quantum dots,” Phys. Rev. B 79, 035330 (2009).
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Takesue, H.

Tanzilli, S.

R. T. Thew, S. Tanzilli, W. Tittel, H. Zbinden, and N. Gisin, “Experimental investigation of the robustness of partially entangled qubits over 11 km,” Phys. Rev. A 66, 062304 (2002).
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Tatarenko, S.

G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
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Thew, R. T.

R. T. Thew, S. Tanzilli, W. Tittel, H. Zbinden, and N. Gisin, “Experimental investigation of the robustness of partially entangled qubits over 11 km,” Phys. Rev. A 66, 062304 (2002).
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Tittel, W.

I. Marcikic, H. de Riedmatten, W. Tittel, H. Zbinden, and N. Gisin, “Long-distance teleportation of qubits at telecommunication wavelengths,” Nature 421, 509–513 (2003).
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R. T. Thew, S. Tanzilli, W. Tittel, H. Zbinden, and N. Gisin, “Experimental investigation of the robustness of partially entangled qubits over 11 km,” Phys. Rev. A 66, 062304 (2002).
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Tribu, A.

G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
[Crossref]

Troiani, F.

M. Abbarchi, F. Troiani, C. Mastrandrea, G. Goldoni, T. Kuroda, T. Mano, K. Sakoda, N. Koguchi, S. Sanguinetti, A. Vinattieri, and M. Gurioli, “Spectral diffusion and line broadening in single self-assembled GaAs / AlGaAs quantum dot photoluminescence,” Appl. Phys. Lett. 93(16), 162101 (2008).
[Crossref]

Trotta, R.

R. Trotta, E. Zallo, C. Ortix, P. Atkinson, J. D. Plumhof, J. van den Brink, A. Rastelli, and O. G. Schmidt, “Universal recovery of the energy-level degeneracy of bright excitons in InGaAs quantum dots without a structure symmetry,” Phys. Rev. Lett. 109, 147401 (2012).
[Crossref] [PubMed]

Ulrich, S. M.

R. Hafenbrak, S. M. Ulrich, P. Michler, L. Wang, A. Rastelli, and O. G. Schmidt, “Triggered polarization-entangled photon pairs from a single quantum dot up to 30 K,” New J. Phys. 9, 315 (2007).
[Crossref]

Urbaszek, B.

T. Kuroda, T. Belhadj, M. Abbarchi, C. Mastrandrea, M. Gurioli, T. Mano, N. Ikeda, Y. Sugimoto, K. Asakawa, N. Koguchi, K. Sakoda, B. Urbaszek, T. Amand, and X. Marie, “Bunching visibility for correlated photons from single GaAs quantum dots,” Phys. Rev. B 79, 035330 (2009).
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van den Brink, J.

R. Trotta, E. Zallo, C. Ortix, P. Atkinson, J. D. Plumhof, J. van den Brink, A. Rastelli, and O. G. Schmidt, “Universal recovery of the energy-level degeneracy of bright excitons in InGaAs quantum dots without a structure symmetry,” Phys. Rev. Lett. 109, 147401 (2012).
[Crossref] [PubMed]

Vinattieri, A.

M. Abbarchi, F. Troiani, C. Mastrandrea, G. Goldoni, T. Kuroda, T. Mano, K. Sakoda, N. Koguchi, S. Sanguinetti, A. Vinattieri, and M. Gurioli, “Spectral diffusion and line broadening in single self-assembled GaAs / AlGaAs quantum dot photoluminescence,” Appl. Phys. Lett. 93(16), 162101 (2008).
[Crossref]

Voisin, C.

H. S. Nguyen, G. Sallen, M. Abbarchi, R. Ferreira, C. Voisin, P. Roussignol, G. Cassabois, and C. Diederichs, “Photoneutralization and slow capture of carriers in quantum dots probed by resonant excitation spectroscopy,” Phys. Rev. B 87, 115305 (2013).
[Crossref]

H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Optically gated resonant emission of single quantum dots,” Phys. Rev. Lett. 108, 057401 (2012).
[Crossref] [PubMed]

H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Ultra-coherent single photon source,” Appl. Phys. Lett. 99, 261904 (2011).
[Crossref]

A. Berthelot, I. Favero, G. Cassabois, C. Voisin, C. Delalande, P. Roussignol, R. Ferreira, and J. M. Gerard, “Unconventional motional narrowing in the optical spectrum of a semiconductor quantum dot,” Nat. Phys. 2, 759–764 (2006).
[Crossref]

Voisin, P.

A. Dousse, J. Suffczyński, A. Beveratos, O. Krebs, A. Lemaître, I. Sagnes, J. Bloch, P. Voisin, and P. Senellart, “Ultrabright source of entangled photon pairs,” Nature 466, 217–220 (2010).
[Crossref] [PubMed]

Wang, L.

R. Hafenbrak, S. M. Ulrich, P. Michler, L. Wang, A. Rastelli, and O. G. Schmidt, “Triggered polarization-entangled photon pairs from a single quantum dot up to 30 K,” New J. Phys. 9, 315 (2007).
[Crossref]

Wei, Y.-J.

Y.-M. He, Y. He, Y.-J. Wei, D. Wu, M. Atature, C. Schneider, S. Höfling, M. Kamp, C.-Y. Lu, and J.-W. Pan, “On-demand semiconductor single-photon source with near-unity indistinguishability,” Nat. Nano. 8, 213–217 (2013).
[Crossref]

Weihs, G.

T. Huber, L. Ostermann, M. Prilmüller, G. S. Solomon, H. Ritsch, G. Weihs, and A. Predojević, “Coherence and degree of time-bin entanglement from quantum dots,” Phys. Rev. B 93, 201301(R) (2016).
[Crossref]

T. Huber, A. Predojević, D. Föger, G. Solomon, and G. Weihs, “Optimal excitation conditions for indistinguishable photons from quantum dots,” New J. Phys. 17(12), 123025 (2015).
[Crossref]

I. Straka, A. Predojević, T. Huber, L. Lachman, L. Butschek, M. Miková, M. Mičuda, G. S. Solomon, G. Weihs, M. Ježek, and R. Filip, “Quantum non-Gaussian depth of single-photon states,” Phys. Rev. Lett. 113, 223603 (2014)
[Crossref] [PubMed]

H. Jayakumar, A. Predojević, T. Kauten, T. Huber, G. S. Solomon, and G. Weihs, “Time-bin entangled photons from a quantum dot,” Nat. Commun. 5, 4251 (2014).
[Crossref] [PubMed]

H. Jayakumar, A. Predojević, T. Huber, T. Kauten, G. S. Solomon, and G. Weihs, “Deterministic photon pairs and coherent optical control of a single quantum dot,” Phys. Rev. Lett. 110, 135505 (2013).
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D. F. V. James, P. G. Kwiat, W. J. Munro, and A. G. White, “Measurement of qubits,” Phys. Rev. A 64, 052312 (2001).
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Wu, D.

Y.-M. He, Y. He, Y.-J. Wei, D. Wu, M. Atature, C. Schneider, S. Höfling, M. Kamp, C.-Y. Lu, and J.-W. Pan, “On-demand semiconductor single-photon source with near-unity indistinguishability,” Nat. Nano. 8, 213–217 (2013).
[Crossref]

Xiao, M.

E. B. Flagg, A. Muller, J. W. Robertson, S. Founta, D. G. Deppe, M. Xiao, W. Ma, G. J. Salamo, and C. K. Shih, “Resonantly driven coherent oscillations in a solid-state quantum emitter,” Nat. Phys. 5(3), 203–207 (2009).
[Crossref]

Young, R. J.

R. M. Stevenson, R. J. Young, P. Atkinson, K. Cooper, D. A. Ritchie, and A. J. Shields, “A semiconductor source of triggered entangled photon pairs,” Nature 439, 179–182 (2006).
[Crossref] [PubMed]

Zallo, E.

R. Trotta, E. Zallo, C. Ortix, P. Atkinson, J. D. Plumhof, J. van den Brink, A. Rastelli, and O. G. Schmidt, “Universal recovery of the energy-level degeneracy of bright excitons in InGaAs quantum dots without a structure symmetry,” Phys. Rev. Lett. 109, 147401 (2012).
[Crossref] [PubMed]

Zbinden, H.

I. Marcikic, H. de Riedmatten, W. Tittel, H. Zbinden, and N. Gisin, “Long-distance teleportation of qubits at telecommunication wavelengths,” Nature 421, 509–513 (2003).
[Crossref] [PubMed]

R. T. Thew, S. Tanzilli, W. Tittel, H. Zbinden, and N. Gisin, “Experimental investigation of the robustness of partially entangled qubits over 11 km,” Phys. Rev. A 66, 062304 (2002).
[Crossref]

Appl. Phys. Lett. (2)

H. S. Nguyen, G. Sallen, C. Voisin, P. Roussignol, C. Diederichs, and G. Cassabois, “Ultra-coherent single photon source,” Appl. Phys. Lett. 99, 261904 (2011).
[Crossref]

M. Abbarchi, F. Troiani, C. Mastrandrea, G. Goldoni, T. Kuroda, T. Mano, K. Sakoda, N. Koguchi, S. Sanguinetti, A. Vinattieri, and M. Gurioli, “Spectral diffusion and line broadening in single self-assembled GaAs / AlGaAs quantum dot photoluminescence,” Appl. Phys. Lett. 93(16), 162101 (2008).
[Crossref]

Nat. Commun. (2)

H. Jayakumar, A. Predojević, T. Kauten, T. Huber, G. S. Solomon, and G. Weihs, “Time-bin entangled photons from a quantum dot,” Nat. Commun. 5, 4251 (2014).
[Crossref] [PubMed]

M. Ghali, K. Ohtani, Y. Ohno, and H. Ohno, “Generation and control of polarization-entangled photons from GaAs island quantum dots by an electric field,” Nat. Commun. 3, 661 (2012).
[Crossref] [PubMed]

Nat. Nano. (1)

Y.-M. He, Y. He, Y.-J. Wei, D. Wu, M. Atature, C. Schneider, S. Höfling, M. Kamp, C.-Y. Lu, and J.-W. Pan, “On-demand semiconductor single-photon source with near-unity indistinguishability,” Nat. Nano. 8, 213–217 (2013).
[Crossref]

Nat. Photonics (4)

G. Sallen, A. Tribu, T. Aichele, R. Andre, L. Besombes, C. Bougerol, M. Richard, S. Tatarenko, K. Kheng, and J.-P. Poizat, “Subnanosecond spectral diffusion measurement using photon correlation,” Nat. Photonics 4, 696–699 (2010).
[Crossref]

G. Juska, V. Dimastrodonato, L. O. Mereni, A. Gocalinska, and E. Pelucchi, “Towards quantum-dot arrays of entangled photon emitters,” Nat. Photonics 7, 527–531 (2013).
[Crossref]

J. Claudon, J. Bleuse, N. S. Malik, M. Bazin, P. Jaffrennou, N. Gregersen, C. Sauvan, P. Lalanne, and J.-M. Gerard, “A highly efficient single-photon source based on a quantum dot in a photonic nanowire,” Nat. Photonics 4, 174–177 (2010).

M. Müller, S. Bounouar, K. D. Jöns, M. Glassl, and P. Michler, “On-demand generation of indistinguishable polarization-entangled photon pairs,” Nat. Photonics 8(3), 224–228 (2014).
[Crossref]

Nat. Phys. (2)

E. B. Flagg, A. Muller, J. W. Robertson, S. Founta, D. G. Deppe, M. Xiao, W. Ma, G. J. Salamo, and C. K. Shih, “Resonantly driven coherent oscillations in a solid-state quantum emitter,” Nat. Phys. 5(3), 203–207 (2009).
[Crossref]

A. Berthelot, I. Favero, G. Cassabois, C. Voisin, C. Delalande, P. Roussignol, R. Ferreira, and J. M. Gerard, “Unconventional motional narrowing in the optical spectrum of a semiconductor quantum dot,” Nat. Phys. 2, 759–764 (2006).
[Crossref]

Nature (5)

I. Marcikic, H. de Riedmatten, W. Tittel, H. Zbinden, and N. Gisin, “Long-distance teleportation of qubits at telecommunication wavelengths,” Nature 421, 509–513 (2003).
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C. H. Bennett and D. P. DiVincenzo, “Quantum information and computation,” Nature 404, 247–255 (2000).
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A. Dousse, J. Suffczyński, A. Beveratos, O. Krebs, A. Lemaître, I. Sagnes, J. Bloch, P. Voisin, and P. Senellart, “Ultrabright source of entangled photon pairs,” Nature 466, 217–220 (2010).
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New J. Phys. (2)

R. Hafenbrak, S. M. Ulrich, P. Michler, L. Wang, A. Rastelli, and O. G. Schmidt, “Triggered polarization-entangled photon pairs from a single quantum dot up to 30 K,” New J. Phys. 9, 315 (2007).
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T. Huber, A. Predojević, D. Föger, G. Solomon, and G. Weihs, “Optimal excitation conditions for indistinguishable photons from quantum dots,” New J. Phys. 17(12), 123025 (2015).
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Opt. Express (1)

Phys. Rev. A (2)

R. T. Thew, S. Tanzilli, W. Tittel, H. Zbinden, and N. Gisin, “Experimental investigation of the robustness of partially entangled qubits over 11 km,” Phys. Rev. A 66, 062304 (2002).
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[Crossref]

Phys. Rev. B (5)

T. Kuroda, T. Belhadj, M. Abbarchi, C. Mastrandrea, M. Gurioli, T. Mano, N. Ikeda, Y. Sugimoto, K. Asakawa, N. Koguchi, K. Sakoda, B. Urbaszek, T. Amand, and X. Marie, “Bunching visibility for correlated photons from single GaAs quantum dots,” Phys. Rev. B 79, 035330 (2009).
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D. Chen, G. R. Lander, K. S. Krowpman, G. S. Solomon, and E. B. Flagg, “Characterization of the local charge environment of a single quantum dot via resonance fluorescence,” Phys. Rev. B 93, 115307 (2016)
[Crossref]

T. Huber, L. Ostermann, M. Prilmüller, G. S. Solomon, H. Ritsch, G. Weihs, and A. Predojević, “Coherence and degree of time-bin entanglement from quantum dots,” Phys. Rev. B 93, 201301(R) (2016).
[Crossref]

L. Besombes, K. Kheng, L. Marsal, and H. Mariette, “Few-particle effects in single CdTe quantum dots,” Phys. Rev. B 65, 121314 (2002).
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H. S. Nguyen, G. Sallen, M. Abbarchi, R. Ferreira, C. Voisin, P. Roussignol, G. Cassabois, and C. Diederichs, “Photoneutralization and slow capture of carriers in quantum dots probed by resonant excitation spectroscopy,” Phys. Rev. B 87, 115305 (2013).
[Crossref]

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M. Metcalfe, S. M. Carr, A. Muller, G. S. Solomon, and J. Lawall, “Resolved sideband emission of InAs/GaAs quantum dots strained by surface acoustic waves,” Phys. Rev. Lett. 105, 037401 (2010).
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Figures (5)

Fig. 1
Fig. 1 (a) Time-bin excitation scheme. The quantum dot is excited with two pulses |early〉 and |late〉 with a defined phase ϕP between them. The resulting state is given by Eq. (1) (b) Energy scheme. A two-photon process drives the system coherently from the ground state |g〉 to the biexciton state |b〉. The decay proceeds via the intermediate exciton level |x〉, resulting in a photon cascade.
Fig. 2
Fig. 2 Schematics of the excitation part of the setup. A pulse stretcher is used to modify the pulse length of the two-photon excitation laser to 4 ps. A part of the beam is sampled and frequency doubled with a BBO crystal. This blue light is used as photo-neutralization laser. A delay stage introduces an additional delay τ to control the relative timing between the resonant laser and the photo-neutralization laser. Please note that the time delay for the blue laser is different to the Michelson interferometer used in the analysis. The latter is part of the analysis, which is different for several measurements and is therefore not shown in this schematic.
Fig. 3
Fig. 3 (a) Increase of biexciton-exciton coincidence counts obtained from two-photon resonant excitation as a function of off-resonant laser power. (b) Red crosses: emission spectrum under resonant two-photon excitation in the photo-neutralization regime. Green dots: emission spectrum under resonant two-photon excitation without photo-neutralization laser. Blue line: photo-luminescence caused by off-resonant laser alone. The line in red and green is only a guide for the eye. (c) Time resolved decay of the exciton photon vs. time. In green dotted: only resonant two-photon excitation. The very fast rising slope is below our time resolution and the time to the maximum is due to the biexciton decay, which is filling the exciton. In blue: excitation caused by the off-resonant laser alone. (d) Second-order correlation function measurement performed on biexciton photons. The data plotted in red dashed was obtained in photo-neutralization regime.
Fig. 4
Fig. 4 (a) Coherence of the XX photon excited with two-photon resonant excitation with and without the off-resonant blue photo-neutralization laser. (b) Same as (a) for the X photon.
Fig. 5
Fig. 5 Reconstructed density matrices for the time-bin entangled photon pair. |e〉 is short for |early〉 and |l〉 is short for |late〉. Indices are not shown for brevity. (a) and (b) Density matrix for two-photon resonant excitation, (c) and (d) with added photo-neutralization laser.

Equations (1)

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| Φ = 1 2 ( | early 1 | early 2 + e i ϕ P | late 1 | late 2 ) ,

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