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Optical Qubits Li Wang Physics 576 3/9/2007. Q.C. Criteria Scalability: OK Initialization to fiducial state: Easy Measurement: Problematic Long decoherence.

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Presentation on theme: "Optical Qubits Li Wang Physics 576 3/9/2007. Q.C. Criteria Scalability: OK Initialization to fiducial state: Easy Measurement: Problematic Long decoherence."— Presentation transcript:

1 Optical Qubits Li Wang Physics 576 3/9/2007

2 Q.C. Criteria Scalability: OK Initialization to fiducial state: Easy Measurement: Problematic Long decoherence time: Good Single Qubit manipulation: Good Conversion to stationary qubit: OK Transmitting between locations: Good Entangling gates

3 Optical Qubit Fiducial state prepare using PBS

4 State characterization Impossible to determine polarization with single measurement (Uncertainty principle) Statistical measurements using many photons Most measurements depend on coincidence detection – many photons are discarded

5 State preparation Using optical elements like HWP and QWP to prepare a specific state Fidelity > 99.7%

6 State preparation Example: Hadamard gate HWP set to 22.5 o of the polarization

7 Optical CNOT gate Optical interference from different pathways (O’Brien 2003 Nature) Ability to produced entangled states (Bell states) Photon in C1 causes Pi phase shift in upper arm of interferometer.

8 Conversion to stationary qubit Shown using trapped Cadmium ions (Blinov 2004 Nature)

9 Non-demolition measurements Building long distance quantum networks: Quantum repeaters Entanglement between photon number n and phase Refractive index of the Kerr crystal is changed by intensity of the Signal beam, thus altering the phase of the Meter beam

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