Comptes Rendus
no. 1
Optical telecommunications/Les télécommunications optiques
From quantum optics to quantum communications
[Aspects quantiques des communications optiques]

Présenté par : Guy Laval

Izo Abram1 ; Philippe Grangier2
1 Laboratoire de photonique et nanostructures (CNRS UPR 20), route de Nozay, 91460 Marcoussis, France
2 Laboratoire Charles Fabry de l'institut d'optique (CNRS UMR 8501), 91403 Orsay, France
Comptes Rendus. Physique, Volume 4 (2003) no. 1, pp. 187-199.

Nous passons en revue le rôle potentiel des methodes de l'optique quantique et de l'information quantique dans les développements futurs des télécommunications optiques.

We review the possible roles of quantum optics and quantum information methods for future developments of optical telecommunications.

Reçu le :
Publié le :
DOI : 10.1016/S1631-0705(03)00005-7
Keywords: Quantum optics, Nonlinear optics, Heisenberg uncertainty principle, Vacuum fluctuations, Quantum noise, Quantum superposition, Entanglement, Shot noise, Squeezed quantum noise, Casimir force, Parametric emission, Quantum non-demolition measurements, Noiseless amplification, Noiseless branching, Spontaneous emission, Photonic bandgaps, Quantum key distribution, Quantum teleportation
Mot clés : Optique quantique, Optique non linéaire, Principe d'incertitude de Heisenberg, Fluctuations du vide, Bruit quantique, Superposition quantique, Intrication, Bruit de grenaille, Bruit quantique comprimé, Force de Casimir, Émission paramétrique, Mesure quantiquement destructive, Amplification sans bruit, Branchement sans bruit, Émission spontanée, Bande interdite photonique, Distribution quantique de les cryptographique, Téléportation quantique

Izo Abram 1 ; Philippe Grangier 2

1 Laboratoire de photonique et nanostructures (CNRS UPR 20), route de Nozay, 91460 Marcoussis, France
2 Laboratoire Charles Fabry de l'institut d'optique (CNRS UMR 8501), 91403 Orsay, France 
@article{CRPHYS_2003__4_1_187_0,
     author = {Izo Abram and Philippe Grangier},
     title = {From quantum optics to quantum communications},
     journal = {Comptes Rendus. Physique},
     pages = {187--199},
     publisher = {Elsevier},
     volume = {4},
     number = {1},
     year = {2003},
     doi = {10.1016/S1631-0705(03)00005-7},
     language = {en},
}
TY  - JOUR
AU  - Izo Abram
AU  - Philippe Grangier
TI  - From quantum optics to quantum communications
JO  - Comptes Rendus. Physique
PY  - 2003
SP  - 187
EP  - 199
VL  - 4
IS  - 1
PB  - Elsevier
DO  - 10.1016/S1631-0705(03)00005-7
LA  - en
ID  - CRPHYS_2003__4_1_187_0
ER  - 
%0 Journal Article
%A Izo Abram
%A Philippe Grangier
%T From quantum optics to quantum communications
%J Comptes Rendus. Physique
%D 2003
%P 187-199
%V 4
%N 1
%I Elsevier
%R 10.1016/S1631-0705(03)00005-7
%G en
%F CRPHYS_2003__4_1_187_0
Izo Abram; Philippe Grangier. From quantum optics to quantum communications. Comptes Rendus. Physique, Volume 4 (2003) no. 1, pp. 187-199. doi : 10.1016/S1631-0705(03)00005-7. https://comptes-rendus.academie-sciences.fr/physique/articles/10.1016/S1631-0705(03)00005-7/

[1] J. Mod. Opt., 4 (1987), pp. 1449-1741 (Special issues on squeezed light)

[2] Ph Grangier; J.A. Levenson; J.-Ph Poizat Nature, 396 (1998), p. 537 (This review paper contains many references)

[3] Quantum interference and cryptographic keys: novel physics and advancing technologies (QUICK), Fortschr. Phys. (Progr. Phys.), Volume 18 (2002), pp. 139-258 (Special issues on quantum information)

[4] E. Desurvire C. R. Physique, 4 (2003)

[5] F. Marin; A. Bramati; E. Giacobino; T.-C. Zhang; J.-Ph Poizat; J.-F. Roch; Ph Grangier Phys. Rev. Lett., 75 (1995), p. 4606

[6] C.H. Henry IEEE J. Quantum Electron., 18 (1982), p. 259

[7] K. Petermann; A.E. Siegman IEEE J. Quantum Electron., Lasers, QE-15, University Science Books, Mill Valley, CA, 1979, p. 566 (See also, 1986)

[8] A.M. van der Lee; N.J. van Druten; M.P. van Exter; J.P. Woerdman; J.-Ph Poizat; Ph Grangier Phys. Rev. Lett., 85 (2000), p. 4711

[9] H.B. Chan; V.A. Aksyuk; R.N. Kleinman; D.J. Bishop; F. Capasso Science, 291 (2001), p. 1941

[10] J.A. Levenson; I. Abram; Th Rivera; P. Fayolle; J.C. Garreau; Ph Grangier; J.A. Levenson; I. Abram; Th Rivera; Ph Grangier; K. Bencheikh; Ch Simonneau; J.A. Levenson Phys. Rev. Lett., 70 (1993), p. 267

[11] S.K. Turitsyn; E.G. Shapiro; S.B. Medvedev; M.P. Fedoruk; V.K. Mezentsev C. R. Physique, 4 (2003)

[12] L.F. Mollenauer; J.P. Gordon; S.G. Evangelides Opt. Lett., 17 (1992), p. 1575

[13] S. Spälter; N. Korolkova; F. König; A. Sizmann; G. Leuchs Phys. Rev. Lett., 81 (1998), p. 786

[14] Yu.M. Golubev; I.V. Sokolov Zh. Eksp. Teor. Phys., 87 (1984), p. 804 (English translation Sov. Phys. JETP, 60, 1984, pp. 234)

[15] Y. Yamamoto; S. Machida; O. Nilsson Phys. Rev. A, 34 (1986), p. 4025

[16] S. Machida; Y. Yamamoto; Y. Itaya Phys. Rev. Lett., 58 (1987), p. 1000

[17] J.-Ph Poizat; T. Chen; O. Ripoll; Ph Grangier J. Opt. Soc. Am. B, 15 (1998), p. 1757

[18] S. Schmitt; J. Ficker; M. Wolff; F. Konig; A. Sizmann; G. Leuchs Phys. Rev. Lett., 81 (1998), p. 2446

[19] J.M. Courty; S. Spalter; F. Konig; A. Sizmann; G. Leuchs Phys. Rev. A, 58 (1998), p. 1501

[20] S. Haroche Cavity quantum electrodynamics (J. Dalibard; J.M. Raimond; J. Zinn-Justin, eds.), Les Houches Summer School, Session LIII: Fundamental Systems in Quantum Optics, North-Holland, Amsterdam, 1992, p. 767

[21] R.G. Hulet; E.S. Hilfer; D. Kleppner Phys. Rev. Lett., 55 (1985), p. 2137

[22] P. Goy; J.M. Raimond; M. Gross; S. Haroche Phys. Rev. Lett., 50 (1983), p. 1903

[23] J.M. Gérard; B. Sermage; B. Gayral; B. Legrand; E. Costard; V. Thierry-Mieg Phys. Rev. Lett., 81 (1998), p. 1110

[24] G. Bourdon; I. Robert; R. Adams; K. Nelep; I. Sagnes; J.M. Moison; I. Abram Appl. Phys. Lett., 77 (2000), p. 1345

[25] E. Yablonovitch Phys. Rev. Lett., 58 (1987), p. 2059

[26] A. Talneau; L. Legouezigou; N. Bouadma; M. Kafesaki; C.M. Soukoulis; M. Agio; H. Kosaka; T. Kawashima; A. Tomita; M. Notomi; T. Tamamura; T. Sato; S. Kawakami J. Lightwave Technol., 80 (2002), p. 547

[27] T.M. Monro; D.J. Richardson C. R. Physique, 4 (2003)

[28] C.H. Bennett; G. Brassard; S. Breidbart; S. Wiesner IBM Technical Disclosure Bulletin, 26 (1984), pp. 4363-4366

[29] C.H. Bennett; F. Bessette; G. Brassard; L. Salvail; J. Smolin J. Cryptology, 5 (1992), p. 3

[30] N. Gisin; G. Ribordy; W. Tittel; H. Zbinden Rev. Mod. Phys., 74 (2002), p. 145 (and references therein)

[31] id Quantique SA, http://www.idquantique.com

[32] M. Fitzi; N. Gisin; U. Maurer Phys. Rev. Lett., 87 (2001), p. 217901

[33] G. Brassard; N. Lütkenhaus; T. Mor; B.C. Sanders Phys. Rev. Lett., 85 (2000), p. 1330

[34] N. Lütkenhaus Phys. Rev. A, 61 (2000), p. 052304

[35] W.T. Buttler; R.J. Hughes; S.K. Lamoreaux; G.L. Morgan; J.E. Nordholt; C.G. Peterson Phys. Rev. Lett., 84 (2000), p. 5652

[36] | arXiv

[37] T. Jennewein; C. Simon; G. Weihs; H. Weinfurter; A. Zeilinger; D.S. Naik; C.G. Peterson; A.G. White; A.J. Berglund; P.G. Kwiat; G. Ribordy; J. Brendel; J.D. Gautier; N. Gisin; H. Zbinden Phys. Rev. A, 84 (2000), p. 4729

[38] F. Grosshans; Ph Grangier Phys. Rev. Lett., 88 (2002), p. 057902

[39] A. Karlsson, M. Bourennane, G. Ribordy, H. Zbinden, J. Brendel, J. Rarity, P. Tapster, Circuits and Devices, November 1999, p. 34

[40] P.M. Nielsen; C. Schori; J.L. Sorensen; L. Salvail; I. Damgard; E. Polzik J. Mod. Opt., 48, 2001, p. 1921 http://www.cki.au.dk/experiment/qrypto/doc/

[41] J.I. Cirac; P. Zoller; H.J. Kimble; H. Mabuchi Phys. Rev. Lett., 78 (1997), p. 3221

[42] C.H. Bennett; G. Brassard; C. Crépeau; R. Jozsa; A. Peres; W.K. Wootters Phys. Rev. Lett., 70 (1993), p. 1895

[43] S.J. Van Enk; J.I. Cirac; P. Zoller Science, 279 (1998), p. 205

[44] X. Maitre; E. Hagley; G. Nogues; C. Wunderlich; P. Goy; M. Brune; J.M. Raimond; S. Haroche Phys. Rev. Lett., 79 (1997), p. 769

[45] P. Domokos; J.-M. Raimond; M. Brune; S. Haroche Phys. Rev. A, 52 (1995), p. 3554

[46] S.J. Van Enk; J.I. Cirac; P. Zoller Phys. Rev. Lett., 79 (1997), p. 5178

[47] A. Imamoglu; D.D. Awschalom; G. Burkard; D.P. DiVincenzo; D. Loss; M. Sherwin; A. Small Phys. Rev. Lett., 83 (1999), p. 4204

[48] F. Grosshans; Ph Grangier Phys. Rev. A, 64 (2001), p. 010301(R)

[49] W. Dur; H.J. Briegel; J.I. Cirac; P. Zoller; L.M. Duan; G. Giedke; J.I. Cirac; P. Zoller; P.G. Kwiat; S. Barraza-Lopez; A. Stefanov; N. Gisin; Jian-Wei-Pan; C. Simon; C. Brukner; A. Zellinger Nature, 59 (1999), p. 169

Cité par Sources :

Commentaires - Politique

Ces articles pourraient vous intéresser

Spatial quantum optical properties of c.w. Optical Parametric Amplification

Laurent Lopez; Sylvain Gigan; Agnès Maître; ...

C. R. Phys (2007)

Quantum and nonlinearity limitations of the optical communication channel

Emmanuel Desurvire

C. R. Phys (2003)