Towards low-loss waveguides in SOI and Ge-on-SOI for mid-IR sensing

Younis, Usman; Luo, Xianshu; Dong, Bowei; Huang, Li; Vanga, Sudheer Kumar; Lim, Andy Eu-Jin; Lo, Patrick; Lee, Chengkuo; Bettiol, A.A.; Ang, Kah‐Wee

doi:10.1088/2399-6528/aaba24

Cited by 21 publications

(14 citation statements)

References 33 publications

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“…The reverse rectification ratio of WSe2/PtS2 is over 10 8 . Compared to conventional semiconductors-based backward diodes, vdW tunneling diodes exhibit a higher rectification ratio and show great potential in high-speed and low-power devices 806,807 . On the other hand, Wu et al designed a unilateral depletion structure based on AsP and MoS2.…”

Section: Neuromorphic Computingmentioning

confidence: 99%

Recent Progress on Two-Dimensional Materials

Chang¹,

Chen²,

Chen³

et al. 2021

Acta Physico Chimica Sinica

309

119

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Research on two-dimensional (2D) materials has been explosively increasing in last seventeen years in varying subjects including condensed matter physics, electronic engineering, materials science, and chemistry since the mechanical exfoliation of graphene in 2004. Starting from graphene, 2D materials now have become a big family with numerous members and diverse categories. The unique structural features and physicochemical properties of 2D materials make them one class of the most appealing candidates for a wide range of potential applications.In particular, we have seen some major breakthroughs made in the field of 2D materials in last five years not only in developing novel synthetic methods and exploring new structures/properties but also in identifying innovative applications and pushing forward commercialisation. In this review, we provide a critical summary on the recent progress made in the field of 2D materials with a particular focus on last five years. After a brief background 物理化学学报 Acta Phys. -Chim. Sin. 2021, 37 (12), 2108017 (3 of 151) introduction, we first discuss the major synthetic methods for 2D materials, including the mechanical exfoliation, liquid exfoliation, vapor phase deposition, and wet-chemical synthesis as well as phase engineering of 2D materials belonging to the field of phase engineering of nanomaterials (PEN). We then introduce the superconducting/optical/magnetic properties and chirality of 2D materials along with newly emerging magic angle 2D superlattices. Following that, the promising applications of 2D materials in electronics, optoelectronics, catalysis, energy storage, solar cells, biomedicine, sensors, environments, etc. are described sequentially. Thereafter, we present the theoretic calculations and simulations of 2D materials. Finally, after concluding the current progress, we provide some personal discussions on the existing challenges and future outlooks in this rapidly developing field.

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Section: Neuromorphic Computingmentioning

confidence: 99%

Recent Progress on Two-Dimensional Materials

Chang¹,

Chen²,

Chen³

et al. 2021

Acta Physico Chimica Sinica

309

119

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“…Strip waveguide of width 1.2 μm and height 400 nm has been employed. Firstly, this waveguide design has enabled us to achieve propagation loss of 1.4 dB/cm for TE polarised light at 3.7 μm wavelength [25]. Secondly, the waveguide structure is consistent with that of the unit cells to achieve the entire 2D metasurface integrated with waveguide in a single etch.…”

Section: Integrating Waveguide With Metasurfacementioning

confidence: 74%

“…In this paper, we present the design of 2D metasurface integrated with a strip waveguide to couple off-chip, out-of-plane, 3.8 μm wavelength into on-chip, in-plane waveguide [24]. Metasurface and strip waveguide integration have been achieved using 400 nm thick SOI material system, which we have previously employed to demonstrate low-loss waveguides for the 3.8 μm wavelength [25]. The maximum coupling efficiency achieved is 98% for the designed 2D meta-surface integrated with strip waveguide.…”

Section: Introductionmentioning

confidence: 99%

High coupling efficiency 2D metasurface integrated with strip waveguide in SOI for mid‐IR wavelengths

Bilal

Younis

2019

IET Optoelectronics

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“…Most development in SOI photonics is concentrated largely for the telecommunication band, with a recent surge for mid‐IR applications. While previous studies on SOI showed the low propagation losses of ~1.44 dB/cm for TE and ~1.2 dB/cm for TM polarization mode at λ = 3.7 μm in channel waveguides, 33 0.6‐1.5 dB/cm for λ = 3.39‐3.73 μm for TE/TM polarization mode in rib waveguides, 20 and 1.4 dB/cm at λ = 3.8 μm in slot waveguides 34 . But as mentioned above, SiO 2 has high material absorption loss in the 2.6 and 2.9 μm range with losses increasing to unacceptably large values above λ = 3.8 μm, 10 making a traditional SOI platform unsuitable at wavelengths beyond 3.8 μm.…”

Section: Candidate Materials For Mid‐ir Waveguidesmentioning

confidence: 79%

Integrated photonic materials for the mid‐infrared

Yadav

Agarwal

2020

Int J of Appl Glass Sci

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While silicon photonic integrated circuits for the near-infrared (IR) telecommunication band have attracted great research interest in the past decade, recent advances offer opportunities to extend the operational wavelength to the mid-IR (2.5-20 μm) for free space communications, sensing, environmental monitoring and much more.In this study, we will comprehensively review the current status of materials available for mid-IR waveguides and waveguide integrated photodetectors, with a few application oriented examples to illustrate the technological importance and significant growth opportunity for integrated photonics in the mid-IR regime. However, this wavelength regime also presents new material design and fabrication challenges.Therefore, we will discuss the critical issues prior to commercialization and will briefly summarize the outlook on future research topics along with opportunities.

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Towards low-loss waveguides in SOI and Ge-on-SOI for mid-IR sensing

Cited by 21 publications

References 33 publications

Recent Progress on Two-Dimensional Materials

Recent Progress on Two-Dimensional Materials

High coupling efficiency 2D metasurface integrated with strip waveguide in SOI for mid‐IR wavelengths

Integrated photonic materials for the mid‐infrared

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