The generation of photonic graph states using T-center defects in silicon
ORAL
Abstract
The generation of all-optical graph states using quantum emitters is a central building block for many important applications, such as quantum communication and measurement-based quantum computation. Silicon-based quantum emitters are especially relevant, as they comprise a powerful spin-photon interface, especially when combined with current silicon photonics. Of particular interest in recent years has been the T-center defect in silicon, as its excitation energy is in the telecommunication O-band, which makes it advantageous for optical fiber transfer of photons. In this work, we consider the experimental potential of generating one- and two-dimensional cluster states using T-centers. We use the time-bin encoding of emitted photons by implementing cavity-enhanced transitions and evaluate the fidelities of the resulting cluster states.
* Army Research Office (MURI grant no. W911NF2120214).
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Presenters
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Arshag Danageozian
Department of Physics, Virginia Tech, and Virginia Tech Center for Quantum Information Science and Engineering, Blacksburg, Virginia 24061, USA, Virignia Tech
Authors
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Arshag Danageozian
Department of Physics, Virginia Tech, and Virginia Tech Center for Quantum Information Science and Engineering, Blacksburg, Virginia 24061, USA, Virignia Tech
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Sophia E Economou
Virginia Tech, Department of Physics, Virginia Tech, and Virginia Tech Center for Quantum Information Science and Engineering, Blacksburg, Virginia 24061, USA