Displaying One Session

08/21/2019 10:00 AM - 11:30 AM Emerald E
Time
10:00 AM - 11:30 AM
NPNMAP - Novel Phenomena and New Materials for Advanced Photonics

WE2.1 - TUNABLE NANOPHOTONICS WITH CHARGE DENSITY WAVES

Presentation Type
Invited Submission
Date
08/21/2019
Time
10:00 AM - 11:30 AM
Room
Emerald E
Duration
30 Minutes
Lecture Time
10:00 AM - 10:30 AM

Abstract

Abstract

1T-TaS2 is a strongly correlated material exhibiting charge density waves at room temperature. These nearly commensurate charge density-waves make 1T-TaS2 extremely sensitive to external stimuli. Using light, heat, DC, and AC electrical biases to tune the optical properties of TaS2, we demonstrate tunable metasurfaces.

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NPNMAP - Novel Phenomena and New Materials for Advanced Photonics

WE2.2 - 2D TMDCS-BASED NIR PHOTODETECTOR ON A SILICON MICRORING CAVITY

Abstract

Abstract

Here, we report a photodetector (PD) based on heterogeneous integration of Few-layer MoTe2integrated on MRR by using our developed 2D printer technique. The device is realized in a two-terminal in-plane electrode configuration without applying external gating, showing a responsivity of (~0.1 A/W).

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NPNMAP - Novel Phenomena and New Materials for Advanced Photonics

WE2.3 - GRAPHENE PLASMONIC METASURFACE FOR BEAM FORMING AND GAS SENSING

Presentation Type
Contributed Submission
Date
08/21/2019
Time
10:00 AM - 11:30 AM
Room
Emerald E
Duration
15 Minutes
Lecture Time
10:45 AM - 11:00 AM

Abstract

Abstract

In this paper, we discuss application of tunable plasmon resonance in graphene for design of multi-purpose beam-forming metasurfaces without changing geometric features and dynamic label-free detection of trace gas at terahertz and mid-infrared frequencies.

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NPNMAP - Novel Phenomena and New Materials for Advanced Photonics

WE2.4 - ULTRA-THIN MSM PHOTODETECTORS WITH NANO-STRUCTURED SURFACE

Presentation Type
Contributed Submission
Date
08/21/2019
Time
10:00 AM - 11:30 AM
Room
Emerald E
Duration
15 Minutes
Lecture Time
11:00 AM - 11:15 AM

Abstract

Abstract

The photon trapping nano-structures help to enhance quantum efficiency in ultra-thin photodetectors that allows to design faster devices. The study shows simulations for light trapping and carriers transport in Si MSM photodetector with micro- holes structure at wavelength 800-950nm.

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NPNMAP - Novel Phenomena and New Materials for Advanced Photonics

WE2.5 - HIGH-SPEED, ROOM-TEMPERATURE THERMAL PHOTODETECTION WITH SPECTRALLY-SELECTIVE METASURFACES

Presentation Type
Invited Submission
Date
08/21/2019
Time
10:00 AM - 11:30 AM
Room
Emerald E
Duration
15 Minutes
Lecture Time
11:15 AM - 11:30 AM

Abstract

Abstract

Thermal photodetectors are uniquely capable of sensing radiation at any electromagnetic frequency, however, their millisecond-scale response times limit their performance and applicability. Here we demonstrate a room-temperature, spectrally-selective thermal photodetector operating at GHz speeds by integrating a plasmonic metasurface with an aluminum nitride pyroelectric film.

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