Ultra-low-power hybrid light–matter solitons

被引:0
|
作者
P. M. Walker
L. Tinkler
D. V. Skryabin
A. Yulin
B. Royall
I. Farrer
D. A. Ritchie
M. S. Skolnick
D. N. Krizhanovskii
机构
[1] University of Sheffield,Department of Physics and Astronomy
[2] University of Bath,Department of Physics
[3] ITMO University 197101,undefined
[4] Cavendish Laboratory,undefined
[5] University of Cambridge,undefined
[6] Present address: Department of Electronic & Electrical Engineering,undefined
[7] University of Sheffield,undefined
[8] Sheffield,undefined
[9] S1 3JD,undefined
[10] UK.,undefined
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Nature Communications | / 6卷
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摘要
New functionalities in nonlinear optics will require systems with giant optical nonlinearity as well as compatibility with photonic circuit fabrication techniques. Here we introduce a platform based on strong light–matter coupling between waveguide photons and quantum-well excitons. On a sub-millimetre length scale we generate picosecond bright temporal solitons at a pulse energy of only 0.5 pJ. From this we deduce a nonlinear refractive index three orders of magnitude larger than in any other ultrafast system. We study both temporal and spatio-temporal nonlinear effects and observe dark–bright spatio-temporal polariton solitons. Theoretical modelling of soliton formation in the strongly coupled system confirms the experimental observations. These results show the promise of our system as a high speed, low power, integrated platform for physics and devices based on strong interactions between photons.
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