Telecom wavelength single photon sources

Single photon sources are key components for quantum technologies such as quantum communication, computing and metrology. A key challenge towards the realization of global quantum networks are transmission losses in optical fibers. Therefore, single photon sources are required to emit at the low-loss telecom wavelength bands. However, an ideal telecom wavelength single photon source has yet to be discovered. Here, we review the recent progress in realizing such sources. We start with single photon emission based on atomic ensembles and spontaneous parametric down conversion, and then focus on solid-state emitters including semiconductor quantum dots, defects in silicon carbide and carbon nanotubes. In conclusion, some state-of-the-art applications are highlighted.

$ \Delta n < \sqrt {\bar n} , $

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$ {g^{\left( 2 \right)}}\left( \tau \right) = \frac{{{{\left\langle {{n_1}\left( t \right){n_2}\left( {t + \tau } \right)} \right\rangle }_t}}}{{{{\left\langle {{n_1}\left( t \right)} \right\rangle }_t}{{\left\langle {{n_2}\left( {t + \tau } \right)} \right\rangle }_t}}}, $

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