4:00 PM–4:00 PM, Thursday, June 7, 2007
TELUS Convention Center - Macleod A, 4:00pm - 6:00pm
Abstract ID: BAPS.2007.DAMOP.K1.8
Joshua Slater
(IQIS, University of Calgary)
Ahdiyeh Delfan
(IQIS, University of Calgary)
Allison Rubenok
(IQIS, University of Calgary)
F\'elix Bussi\`eres
(IQIS, University of Calgary; COPL, Polytechnique Montr\'eal)
Nicolas Godbout
(COPL, Polytechnique Montr\'eal)
Wolfgang Tittel
(IQIS, University of Calgary)
Building a quantum cryptography network with optical fiber is desirable as fiber is well understood and networks are already widespread. Transmitting through free-space is also desirable as it allows key distribution where optical fibers are not available. However, the absorption minima for these methods are at widely separated wavelengths: 1550 nm for fiber and around 800 nm for free-space. To create a hybrid network we are working towards teleporting quantum information from a photon suitable for fiber transmission to a photon suitable for free-space transmission. To achieve this, we require entangled photons at widely separated wavelengths, which are normally produced in non-linear crystals. Our research focuses on producing the entangled pair directly in optical fiber using four-wave mixing (FWM). We examined the possibility of using two pump lasers at widely separated wavelengths, whereas previous FWM photon pair source experiments have used a single pump laser. We present initial results of phase matching for feasible experimental setups.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2007.DAMOP.K1.8