Low Threshold and Long‐Range Propagation Plasmonic Nanolaser Enhanced by Black Phosphorus Nanosheets

A hybrid plasmonic nanolaser based on nanowire/air slot/semicircular graphene and metal wire structure was designed. In this structure, the waveguides in the nanowires and the graphene-metal interface are coupled to form a hybrid plasma mode, which effectively reduces the metal loss. The mode and strong coupling of the laser are analyzed by using the finite-element method. Its electric field distribution, propagation loss, normalized mode area, quality factor, and lasing threshold are studied with the different geometric model. Simulation results reveal that the performance of the laser using this structure can be optimized by adjusting the model parameters. Under the optimal parameters, the effective propagation loss is only 0.0096, and the lasing threshold can be as low as 0.14 μm−1. This structure can achieve deep sub-wavelength confinement and low-loss transmission, and provides technical support for the miniaturization and integration of nano-devices.

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A room temperature low-threshold ultraviolet plasmonic nanolaser

Nature Communications ◽

10.1038/ncomms5953 ◽

2014 ◽

Vol 5 (1) ◽

Cited By ~ 198

Author(s):

Qing Zhang ◽

Guangyuan Li ◽

Xinfeng Liu ◽

Fang Qian ◽

Yat Li ◽

...

Keyword(s):

Room Temperature ◽

Low Threshold ◽

Plasmonic Nanolaser

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Low-threshold lasing in a plasmonic laser using nanoplate InGaN/GaN

Journal of Semiconductors ◽

10.1088/1674-4926/42/12/122803 ◽

2021 ◽

Vol 42 (12) ◽

pp. 122803

Author(s):

Ting Zhi ◽

Tao Tao ◽

Xiaoyan Liu ◽

Junjun Xue ◽

Jin Wang ◽

...

Keyword(s):

Data Storage ◽

Near Field ◽

Lasing Threshold ◽

High Loss ◽

Field Coupling ◽

Ohmic Losses ◽

New Type ◽

Refractive Index Material ◽

Low Threshold ◽

Plasmonic Nanolaser

Abstract Plasmonic nanolaser as a new type of ultra-small laser, has gain wide interests due to its breaking diffraction limit of light and fast carrier dynamics characters. Normally, the main problem that need to be solved for plasmonic nanolaser is high loss induced by optical and ohmic losses, which leads to the low quality factor. In this work, InGaN/GaN nanoplate plasmonic nanolaser with large interface area were designed and fabricated, where the overlap between SPs and excitons can be enhanced. The lasing threshold is calculated to be ~6.36 kW/cm2, where the full width at half maximum (FWHM) drops from 27 to 4 nm. And the fast decay time at 502 nm (sharp peak of stimulated lasing) is estimated to be 0.42 ns. Enhanced lasing characters are mainly attributed to the strong confinement of electromagnetic wave in the low refractive index material, which improve the near field coupling between SPs and excitons. Such plasmonic laser should be useful in data storage applications, biological application, light communication, especially for optoelectronic devices integrated into a system on a chip.

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