Plug and Play Interferometer Configuration using Single Modulator Technique
We demonstrate single-photon interference over 10 km using a plug and play system for quantum key distribution. The quality of the interferometer is measured by using the interferometer
visibility. The coding of the signal is based on the phase coding and the value of visibility is based on the interference effect, which result a number of count. The setup gives full control of polarization inside
the interferometer. The quality measurement of the interferometer is based on number of count per second and the system produces 94 % visibility in one of the detectors.
[1] Bennett, C.H., and Brassard, G., Quantum cryptography: Public key
distribution and coin tossing (Proc. Int. Conf. Comput. Syst. Signal Process, Bangalore, 1984, pp. 175-179).
[2] Bennett, C.H., Bessette, F., Brassard, G., Salvail, L., and Smolin,
J.,Experimental quantum cryptography (J. Cryptol., 1992, 5, (3)).
[3] Townsend, P.D.; Rarity, and J.G.; Tapster, P.R, Single photon interference
in 10 km long optical fibre interferometer (Electronics Letters, 1993, 29,pp. 634-635).
[4] Muller, A.; Breguet, J.; and Gisin, N, Experimental demonstration of
quantum cryptography using polarized photons in optical fibre over more
than 1 km (Europhysics Letters, 1993, 23, pp. 383-388).
[5] Townsend, P.D.; Rarity, J.G.; and Tapster, P.R.,Enhanced single photon
fringe visibility in a 10 km-long prototype quantum cryptography channel
(Electronics Letters, 1993, 29, pp. 1291-1293).
[6] Franson, J.D. and Jacobs, B.C, Operational system for quantum cryptography
(Electronics Letters, 1995, 31, pp. 232-234).
[7] Marand, C., and Townsend, P.D Quantum key distribution over distances
as long as 30 km (Optics Letters, 1995, 20, pp. 1695-1697).
[8] Muller, A., Zbinden, H., and Gisin, N Quantum cryptography over 23 km
in installed under-lake telecom fibre (Europhysics Letters, 1996, 33, pp.
335-339).
[9] A., Herzog, T., Huttner, B., Tittel, W., Zbinden, H., and Gisin, N Plug
and play" systems for quantum cryptography (Applied Physics Letters,
1997, 70, pp. 793-795).
[10] Zbinden, H., Gautier, J.D., Gisin, N., Huttner, B., Muller, A., and
Tittel, W Interferometry with Faraday mirrors for quantum cryptography
(Electronics Letters, 1997, 33, pp. 586-588).
[11] Ribordy, G., Gautier, J.D., Gisin, N., Guinnard, O., and Zbinden, H
Automated ÔÇÿplug and play- quantum key distribution (Electronics Letters,
1998, 34, pp. 2116-2117).
[12] Stucki, D., Gisin, N, Guinnard, O., Ribordy, G., and Zbinden, H
Quantum Key Distribution over 67 km with a plug & play system (quantph/
0203118, 2002).
[13] Palais, Joseph C Fiber optic communications, 4th Ed (Prentice Hall,1998).
[1] Bennett, C.H., and Brassard, G., Quantum cryptography: Public key
distribution and coin tossing (Proc. Int. Conf. Comput. Syst. Signal Process, Bangalore, 1984, pp. 175-179).
[2] Bennett, C.H., Bessette, F., Brassard, G., Salvail, L., and Smolin,
J.,Experimental quantum cryptography (J. Cryptol., 1992, 5, (3)).
[3] Townsend, P.D.; Rarity, and J.G.; Tapster, P.R, Single photon interference
in 10 km long optical fibre interferometer (Electronics Letters, 1993, 29,pp. 634-635).
[4] Muller, A.; Breguet, J.; and Gisin, N, Experimental demonstration of
quantum cryptography using polarized photons in optical fibre over more
than 1 km (Europhysics Letters, 1993, 23, pp. 383-388).
[5] Townsend, P.D.; Rarity, J.G.; and Tapster, P.R.,Enhanced single photon
fringe visibility in a 10 km-long prototype quantum cryptography channel
(Electronics Letters, 1993, 29, pp. 1291-1293).
[6] Franson, J.D. and Jacobs, B.C, Operational system for quantum cryptography
(Electronics Letters, 1995, 31, pp. 232-234).
[7] Marand, C., and Townsend, P.D Quantum key distribution over distances
as long as 30 km (Optics Letters, 1995, 20, pp. 1695-1697).
[8] Muller, A., Zbinden, H., and Gisin, N Quantum cryptography over 23 km
in installed under-lake telecom fibre (Europhysics Letters, 1996, 33, pp.
335-339).
[9] A., Herzog, T., Huttner, B., Tittel, W., Zbinden, H., and Gisin, N Plug
and play" systems for quantum cryptography (Applied Physics Letters,
1997, 70, pp. 793-795).
[10] Zbinden, H., Gautier, J.D., Gisin, N., Huttner, B., Muller, A., and
Tittel, W Interferometry with Faraday mirrors for quantum cryptography
(Electronics Letters, 1997, 33, pp. 586-588).
[11] Ribordy, G., Gautier, J.D., Gisin, N., Guinnard, O., and Zbinden, H
Automated ÔÇÿplug and play- quantum key distribution (Electronics Letters,
1998, 34, pp. 2116-2117).
[12] Stucki, D., Gisin, N, Guinnard, O., Ribordy, G., and Zbinden, H
Quantum Key Distribution over 67 km with a plug & play system (quantph/
0203118, 2002).
[13] Palais, Joseph C Fiber optic communications, 4th Ed (Prentice Hall,1998).
@article{"International Journal of Information, Control and Computer Sciences:51124", author = "Norshamsuri Ali and Hafizulfika and Salim Ali Al-Kathiri and Abdulla Al-Attas and Suhairi Saharudin and Mohamed Ridza Wahiddin", title = "Plug and Play Interferometer Configuration using Single Modulator Technique", abstract = "We demonstrate single-photon interference over 10 km using a plug and play system for quantum key distribution. The quality of the interferometer is measured by using the interferometer
visibility. The coding of the signal is based on the phase coding and the value of visibility is based on the interference effect, which result a number of count. The setup gives full control of polarization inside
the interferometer. The quality measurement of the interferometer is based on number of count per second and the system produces 94 % visibility in one of the detectors.", keywords = "single photon, interferometer, quantum key distribution.", volume = "2", number = "5", pages = "1377-6", }
