We show coupling between single 1.3 µm InAs quantum dots (QDs) and photonic crystal nanocavities with quality factors up to 16 500. We demonstrate increased spontaneous emission rate for the first time in telecommunication wavelengths QDs
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
We show coupling between single 1.3 µm InAs quantum dots (QDs) and photonic crystal nanocavities wit...
We show coupling between single 1.3 µm InAs quantum dots (QDs) and photonic crystal nanocavities wit...
We show coupling between single 1.3 µm InAs quantum dots (QDs) and photonic crystal nanocavities wit...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The coupling between single 1.3 mum InAs quantum dots (QDs) and photonic crystal nanocavities with q...
The coupling between single 1.3 mum InAs quantum dots (QDs) and photonic crystal nanocavities with q...
The coupling between single 1.3 mum InAs quantum dots (QDs) and photonic crystal nanocavities with q...
The coupling between single 1.3 mum InAs quantum dots (QDs) and photonic crystal nanocavities with q...
The coupling between single 1.3 mum InAs quantum dots (QDs) and photonic crystal nanocavities with q...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
We show coupling between single 1.3 µm InAs quantum dots (QDs) and photonic crystal nanocavities wit...
We show coupling between single 1.3 µm InAs quantum dots (QDs) and photonic crystal nanocavities wit...
We show coupling between single 1.3 µm InAs quantum dots (QDs) and photonic crystal nanocavities wit...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The coupling between single 1.3 mum InAs quantum dots (QDs) and photonic crystal nanocavities with q...
The coupling between single 1.3 mum InAs quantum dots (QDs) and photonic crystal nanocavities with q...
The coupling between single 1.3 mum InAs quantum dots (QDs) and photonic crystal nanocavities with q...
The coupling between single 1.3 mum InAs quantum dots (QDs) and photonic crystal nanocavities with q...
The coupling between single 1.3 mum InAs quantum dots (QDs) and photonic crystal nanocavities with q...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The authors demonstrate coupling at 1.3 micro m between single InAs quantum dots (QDs) and a mode of...
The development of semiconductor based single photon sources at telecom wavelength is a fundamental ...
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