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14:30 |
Q 8.1 |
Towards all optical gates with molecular photons — Mohammad Rezai, Kim Kafenda, Joerg Wrachtrup, and •Ilja Gerhardt
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14:45 |
Q 8.2 |
Ground state phonon processes of silicon vacancy centres in diamond and their implications for spin coherence — •Kay Jahnke, Alp Sipahigil, Jan Binder, Marcus Doherty, Mathias Metsch, Lachlan Rogers, Neil Manson, Mikhail Lukin, and Fedor Jelezko
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15:00 |
Q 8.3 |
Temperature dependence of the diamond silicon vacancy zero phonon line and the resulting electron-phonon interaction model — •Jan M. Binder, Kay D. Jahnke, Alp Sipahigil, Marcus W. Doherty, Mathias Metsch, Lachlan J. Rogers, Neil B. Manson, Mikhail D. Lukin, and Fedor Jelezko
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15:15 |
Q 8.4 |
Coherence studies of light emitting quantum-dot superluminescent diodes — •Franziska Friedrich, Sebastien Hartmann, Wolfgang Elsäßer, and Reinhold Walser
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15:30 |
Q 8.5 |
Experimental investigations on photon statistics of a pseudothermal light source at 1300nm — •Simone Kuhn, Sébastien Hartmann, and Wolfgang Elsäßer
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15:45 |
Q 8.6 |
A heralded single photon source for telecom wavelengths based on a PPLN waveguide — •Matthias Bock, Andreas Lenhard, and Christoph Becher
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16:00 |
Q 8.7 |
Telecom-Heralded Single Photon Source for Single Atom, Single Photon Quantum Interface — •Andreas Lenhard, Matthias Bock, Stephan Kucera, José Brito, Pascal Eich, Philipp Müller, Jürgen Eschner, and Christoph Becher
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16:15 |
Q 8.8 |
Single photon absorption by a single atom heralded by a telecom-converted single photon — •Stephan Kucera, José Brito, Andreas Lenhard, Pascal Eich, Philipp Müller, Christoph Becher, and Jürgen Eschner
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