Self-aligned Hybrid Nanocavities Using Atomically Thin Materials

Chee Fai Fong,Daiki Yamashita,Nan Fang,Shun Fujii, Yih-Ren Chang,Takashi Taniguchi,Kenji Watanabe,Yuichiro K. Kato

ACS PHOTONICS（2024）

RIKEN Cluster Pioneering Res | RIKEN Ctr Adv Photon | Natl Inst Mat Sci

Cited 0|Views17

Abstract

Two-dimensional (2D) materials are increasingly being adopted in hybrid photonics via integration with photonic structures, including cavities. The utility of 2D materials for dielectric environment engineering in hybrid nanophotonic devices remains largely unexplored. We demonstrate self-aligned hybrid nanocavities in which 2D material flakes are used to form cavities locally wherever they are placed along the PhC waveguide postfabrication. We successfully fabricated such hybrid nanocavities with various 2D materials on silicon PhC waveguides, obtaining Q factors as high as 4.0 x 10(5). Remarkably, even monolayer flakes can provide sufficient local refractive index modulation to induce high Q nanocavity formation. We have also observed cavity PL enhancement in a self-aligned MoTe2 cavity device with an enhancement factor of about 15. Our results highlight the prospect of using such 2D material-induced PhC nanocavities to realize a wide range of photonic components for hybrid integrated photonic circuits.

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Key words

photonic crystal,hexagonal boron nitride,transition metal dichalcogenide,light-matter interaction

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On-demand Ultrahigh-Q Cavity Formation and Photon Pinning Via Dynamic Waveguide Tuning

Masaya Notomi,Hideaki Taniyama

2008

被引用75 | 浏览

Block-iterative frequency-domain methods for Maxwell's equations in a planewave basis.

S Johnson,J Joannopoulos

2001

被引用4212 | 浏览

Fine-tuned High-Q Photonic-Crystal Nanocavity.

Y Akahane,T Asano,BS Song,S Noda

2005

被引用538 | 浏览

Strong Enhancement of Light-Matter Interaction in Graphene Coupled to A Photonic Crystal Nanocavity

Xuetao Gan,Kin Fai Mak,Yuanda Gao,Yumeng You,Fariba Hatami,James Hone,Tony F. Heinz,Dirk Englund

2012

被引用303 | 浏览

Spin and Pseudospins in Layered Transition Metal Dichalcogenides

Xiaodong Xu,Wang Yao,Di Xiao,Tony F. Heinz

2014

被引用2985 | 浏览

High-Q Cavities in Multilayer Photonic Crystal Slabs

Snjezana Tomljenovic-Hanic,C. Martijn de Sterke,M. J. Steel,Benjamin J. Eggleton,Yoshinori Tanaka,Susumu Noda

2008

被引用40 | 浏览

Atomically Thin Mos2: A New Direct-Gap Semiconductor

Kin Fai Mak,Changgu Lee,James Hone,Jie Shan,Tony F. Heinz

2010

被引用17330 | 浏览

Optical Properties and Band Gap of Single- and Few-Layer MoTe2 Crystals.

Claudia Ruppert,Ozgur Burak Aslan,Tony F. Heinz

2015

被引用829 | 浏览

Monolayer Semiconductor Nanocavity Lasers with Ultralow Thresholds

Sanfeng Wu,Sonia Buckley,John R. Schaibley,Liefeng Feng,Jiaqiang Yan,David G. Mandrus,Fariba Hatami,Wang Yao,Jelena Vučković,Arka Majumdar,Xiaodong Xu

2015

被引用918 | 浏览

Exciton Binding Energy of Monolayer WS2

Bairen Zhu,Xi Chen,Xiaodong Cui

2015

被引用690 | 浏览

Investigation of Point-Defect Cavity Formed in Two-Dimensional Photonic Crystal Slab with One-Sided Dielectric Cladding

Y Tanaka,T Asano,R Hatsuta,S Noda

2006

被引用67 | 浏览

Control of Two-Dimensional Excitonic Light Emission Via Photonic Crystal

Sanfeng Wu,Sonia Buckley,Aaron M. Jones,Jason S. Ross,Nirmal J. Ghimire,Jiaqiang Yan,David G. Mandrus,Wang Yao,Fariba Hatami,Jelena Vuckovic,Arka Majumdar,Xiaodong Xu

2014

被引用171 | 浏览

A MoTe2-based Light-Emitting Diode and Photodetector for Silicon Photonic Integrated Circuits.

Ya-Qing Bie,Gabriele Grosso,Mikkel Heuck,Marco M. Furchi,Yuan Cao,Jiabao Zheng,Darius Bunandar,Efren Navarro-Moratalla,Lin Zhou,Dmitri K. Efetov,Takashi Taniguchi,Kenji Watanabe,

2017

被引用415 | 浏览

Valley Manipulation by Optically Tuning the Magnetic Proximity Effect in WSe2/CrI3 Heterostructures.

Kyle L. Seyler,Ding Zhong,Bevin Huang,Xiayu Linpeng,Nathan P. Wilson,Takashi Taniguchi,Kenji Watanabe,Wang Yao,Di Xiao,Michael A. McGuire,Kai-Mei C. Fu,Xiaodong Xu

2018

被引用316 | 浏览

Nanophotonics with 2D Transition Metal Dichalcogenides [Invited].

Alex Krasnok,Sergey Lepeshov,Andrea Alu

2018

被引用151 | 浏览

Optical Coupling Between Atomically Thin Black Phosphorus and a Two Dimensional Photonic Crystal Nanocavity

Yasutomo Ota,Rai Moriya,Naoto Yabuki,Miho Arai,Masahiro Kakuda,Satoshi Iwamoto,Tomoki Machida,Yasuhiko Arakawa

2017

被引用16 | 浏览

Integration of Single Photon Emitters in 2D Layered Materials with a Silicon Nitride Photonic Chip

Frédéric Peyskens,Chitraleema Chakraborty,Muhammad Muneeb,Dries Van Thourhout,Dirk Englund

2019

被引用205 | 浏览

Time-resolved Vacuum Rabi Oscillations in a Quantum-Dot-nanocavity System

K. Kuruma,Y. Ota, M. Kakuda,S. Iwamoto,Y. Arakawa

2018

被引用16 | 浏览

Enhanced Light-Matter Interaction in an Atomically Thin Semiconductor Coupled with Dielectric Nano-Antennas

L. Sortino,P. G. Zotev,S. Mignuzzi,J. Cambiasso,D. Schmidt,A. Genco,M. Aßmann,M. Bayer,S. A. Maier,R. Sapienza,A. I. Tartakovskii

2019

被引用100 | 浏览

Integrated on Chip Platform with Quantum Emitters in Layered Materials

Sejeong Kim,Ngoc My Hanh Duong,Minh Nguyen,Tsung-Ju Lu,Mehran Kianinia,Noah Mendelson,Alexander Solntsev,Carlo Bradac,Dirk R. Englund,Igor Aharonovich

2019

被引用59 | 浏览

Near‐Unity Polarization of Valley‐Dependent Second‐Harmonic Generation in Stacked TMDC Layers and Heterostructures at Room Temperature

Danliang Zhang,Zhouxiaosong Zeng,Qingjun Tong,Ying Jiang,Shula Chen,Biyuan Zheng,Junyu Qu,Fang Li,Weihao Zheng,Feng Jiang,Hepeng Zhao,Lanyu Huang,

2020

被引用54 | 浏览

Deterministic Transfer of Optical-Quality Carbon Nanotubes for Atomically Defined Technology

Keigo Otsuka,Nan Fang,Daiki Yamashita,Takashi Taniguchi,Kenji Watanabe,Yuichiro K. Kato

2022

被引用15 | 浏览

Dielectric Properties of Hexagonal Boron Nitride and Transition Metal Dichalcogenides: from Monolayer to Bulk

Akash Laturia,Maarten L. Van de Put,William G. Vandenberghe

2018

被引用755 | 浏览

MoTe2 PN Homojunction Constructed on a Silicon Photonic Crystal Cavity for High-Performance Photodetector

Chen Li,Ruijuan Tian,Ruixuan Yi,Siqi Hu,Yuxin Chen,Qingchen Yuan,Xutao Zhang,Yan Liu,Yue Hao,Xuetao Gan,Jianlin Zhao

2021

被引用26 | 浏览

Quantization of Mode Shifts in Nanocavities Integrated with Atomically Thin Sheets

Nan Fang,Daiki Yamashita,Shun Fujii,Keigo Otsuka,Takashi Taniguchi,Kenji Watanabe,Kosuke Nagashio,Yuichiro K. Kato

2022

被引用6 | 浏览

Strongly Enhanced Light–matter Coupling of Monolayer WS2 from a Bound State in the Continuum

Eugenio Maggiolini,Laura Polimeno,Francesco Todisco,Anna Di Renzo,Bo Han,Milena De Giorgi,Vincenzo Ardizzone,Christian Schneider,Rosanna Mastria,Alessandro Cannavale,Marco Pugliese,Luisa De Marco,

2023

被引用40 | 浏览

Valley Relaxation of the Moiré Excitons in a WSe2/MoSe2 Heterobilayer.

Keisuke Shinokita,Kenji Watanabe,Takashi Taniguchi,Kazunari Matsuda

2022

被引用9 | 浏览

Purcell Enhancement and Polarization Control of Single-Photon Emitters in Monolayer WSe2 Using Dielectric Nanoantennas

Shaimaa I. Azzam,Kamyar Parto,Galan Moody

2023

被引用11 | 浏览

Layered Materials As a Platform for Quantum Technologies

Alejandro R.-P. Montblanch,Matteo Barbone,Igor Aharonovich,Mete Atatüre,Andrea C. Ferrari

2017

被引用68 | 浏览

An Inverse-Designed Nanophotonic Interface for Excitons in Atomically Thin Materials

Ryan J. Gelly,Alexander D. White,Giovanni Scuri,Xing Liao,Geun Ho Ahn,Bingchen Deng,Kenji Watanabe,Takashi Taniguchi,Jelena Vuckovic,Hongkun Park

2023

被引用7 | 浏览

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Chat Paper

【要点】：本论文展示了一种新方法，通过在硅基光子晶体波导上后处理覆盖合适的二维材料碎片，实现了自对准混合纳米腔的制备，该方法避免了传统预先制造光子晶体纳米腔的复杂性，并且不会降低腔体的品质因子（Q因子）。创新点在于二维材料与光子结构的集成实现了高质量的光 matter 耦合。

【方法】：研究采用了一种新颖的方法，通过在硅基光子晶体波导上后处理，部分覆盖了由原子层厚材料制成的碎片来形成混合纳米腔。

【实验】：实验中使用了氮化硼（hBN）、二维过渡金属硫化物（WSe₂和MoTe₂）碎片与硅基光子晶体波导结合，成功制备了混合纳米腔设备，获得了高达4.0×10^5的品质因子（Q因子）。即使是一层或几层厚的碎片也足以提供足够的局部折射率调制，从而诱导纳米腔的形成。由于二维材料与纳米腔自对准，研究观察到MoTe₂混合腔设备的腔体发光增强，其腔体浦尔凯尔增强因子约为15。

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