2017
DOI: 10.1515/nanoph-2016-0169
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Ultracompact on-chip photothermal power monitor based on silicon hybrid plasmonic waveguides

Abstract: Abstract:We propose and demonstrate an ultracompact on-chip photothermal power monitor based on a silicon hybrid plasmonic waveguide (HPWG), which consists of a metal strip, a silicon core, and a silicon oxide (SiO 2 ) insulator layer between them. When light injected to an HPWG is absorbed by the metal strip, the temperature increases and the resistance of the metal strip changes accordingly due to the photothermal and thermal resistance effects of the metal. Therefore, the optical power variation can be moni… Show more

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Cited by 16 publications
(11 citation statements)
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“…Traditional silicon photonic devices with heating/thermal effects usually have a relatively large volume, which leads to bottlenecks in the performance and power consumption. The hybrid nanoplasmonic waveguide, with a very strong confinement of the optical field, provides a possible way to enhance the thermal-optical effect for functionality devices [ 107 , 108 ].…”
Section: Heating/thermal Effects In Plasmonic Nanostructuresmentioning
confidence: 99%
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“…Traditional silicon photonic devices with heating/thermal effects usually have a relatively large volume, which leads to bottlenecks in the performance and power consumption. The hybrid nanoplasmonic waveguide, with a very strong confinement of the optical field, provides a possible way to enhance the thermal-optical effect for functionality devices [ 107 , 108 ].…”
Section: Heating/thermal Effects In Plasmonic Nanostructuresmentioning
confidence: 99%
“…In Reference [ 108 ], a photo-thermal detector is proposed for the first time by using a hybrid nanoplasmonic waveguide, as shown in Figure 12 a. In this design, the incident TM-polarized light guided by a silicon nanowire is incident to the hybrid plasmonic waveguide section and absorbed by the metal strip atop, which results in a temperature increase.…”
Section: Heating/thermal Effects In Plasmonic Nanostructuresmentioning
confidence: 99%
See 1 more Smart Citation
“…An integrated power monitor with a long-range surface plasmonic waveguide on silicon was reported [17], and the responsivity is about 0.15mV/mW at the wavelength of 1550nm with a active length as long as 1 mm. Recently, in [18] we proposed a long-wave photodetector with a silicon hybrid plasmonic waveguide (HPW). The reason for considering the longwave range in our case is that people have already developed very excellent photodetectors on silicon for the short wavelength from visible light to the near-infrared light.…”
Section: Utilization Of Optically Thermal Effect For Long-wave Photodmentioning
confidence: 99%
“…An integrated power monitor with a long-range surface plasmonic waveguide on silicon was reported [17], and the responsivity is about 0.15mV/mW with a active length as long as 1 mm. In [18], we proposed a long-wave photodetector with a silicon hybrid plasmonic waveguide (HPW), and the theoretical responsivity of the proposed photodetector with a footprint of 10 μm×300 nm is as high as 74mV/mW. In addition to metal heaters, more recently graphene is also an excellent candidate for the thermal management of silicon photonic devices because of its high intrinsic thermal conductivity as well as electrical conductivity [19].…”
Section: Introductionmentioning
confidence: 99%