Add to ORKGWe enter the multi-stability regime of an optical microresonator to generate heteronuclear soliton molecules. Ultrafast electro-optical sampling reveals the bound structures of such soliton molecules, despite comprising solitons of dissimilar amplitudes, durations and frequencies. (C) 2019 The Author(s
The formation of temporal dissipative solitons in optical microresonators enables compact, high-repe...
We generate 100-GHz soliton microcombs in a photonic integrated high-Q Si3N4 microresonator using an...
We demonstrate a peculiar mechanism for the formation of bound states of light pulses of substantial...
Many physical systems display quantized energy states. In optics, interacting resonant cavities show...
We demonstrate the existence of perfect soliton crystal states and develop the deterministic procedu...
Characteristic features of soliton-comb structures in optical microresonators are investigated in no...
We review recent progress of the microcomb-based RF photonic filters, and discuss the direct synthes...
<p>Real-time spectroscopy access to ultrafast fiber lasers opens new opportunities for exploring com...
Soliton molecules (SMs) are stable bound states between solitons. SMs in fiber lasers are intensivel...
Recent developments in the technology of optical telecommunications are pushed forward by the rapidl...
A study was performed on the generation of robust self-sustained clusters of soliton bullets. The st...
We show how to generate robust self-sustained clusters of soliton bullets—spatiotemporal (optical or...
On-demand synthesis and dissociation of soliton molecules are controlled to occur simultaneously in ...
Compact bound states of light pulses in ultrafast lasers are known as optical soliton molecules. The...
Frequency combs are having a broad impact on science and technology because they provide a way to co...
The formation of temporal dissipative solitons in optical microresonators enables compact, high-repe...
We generate 100-GHz soliton microcombs in a photonic integrated high-Q Si3N4 microresonator using an...
We demonstrate a peculiar mechanism for the formation of bound states of light pulses of substantial...
Many physical systems display quantized energy states. In optics, interacting resonant cavities show...
We demonstrate the existence of perfect soliton crystal states and develop the deterministic procedu...
Characteristic features of soliton-comb structures in optical microresonators are investigated in no...
We review recent progress of the microcomb-based RF photonic filters, and discuss the direct synthes...
<p>Real-time spectroscopy access to ultrafast fiber lasers opens new opportunities for exploring com...
Soliton molecules (SMs) are stable bound states between solitons. SMs in fiber lasers are intensivel...
Recent developments in the technology of optical telecommunications are pushed forward by the rapidl...
A study was performed on the generation of robust self-sustained clusters of soliton bullets. The st...
We show how to generate robust self-sustained clusters of soliton bullets—spatiotemporal (optical or...
On-demand synthesis and dissociation of soliton molecules are controlled to occur simultaneously in ...
Compact bound states of light pulses in ultrafast lasers are known as optical soliton molecules. The...
Frequency combs are having a broad impact on science and technology because they provide a way to co...
The formation of temporal dissipative solitons in optical microresonators enables compact, high-repe...
We generate 100-GHz soliton microcombs in a photonic integrated high-Q Si3N4 microresonator using an...
We demonstrate a peculiar mechanism for the formation of bound states of light pulses of substantial...