Your search keyword '"Tjiptoharsono, Febiana"' showing total 31 results

1. Unidirectional Chiral Emission via Twisted Bi-layer Metasurfaces

Author

Gromyko, Dmitrii, An, Shu, Gorelik, Sergey, Xu, Jiahui, Lim, Li Jun, Lee, Henry Yit Loong, Tjiptoharsono, Febiana, Tan, Zhi-Kuang, Qiu, Cheng-Wei, Dong, Zhaogang, and Wu, Lin

Subjects

Physics - Optics

Abstract

Controlling and channelling light emissions from unpolarized quantum dots into specific directions with chiral polarization remains a key challenge in modern photonics. Stacked metasurface designs offer a potential compact solution for chirality and directionality engineering. However, experimental observations of directional chiral radiation from resonant metasurfaces with quantum emitters remain obscure. In this paper, we present experimental observations of unidirectional chiral emission from a twisted bi-layer metasurface via multi-dimensional control, including twist angle, interlayer distance, and lateral displacement between the top and bottom layers, as enabled by doublet alignment lithography (DAL). First, maintaining alignment, the metasurface demonstrates a resonant intrinsic optical chirality with near-unity circular dichroism of 0.94 and reflectance difference of 74%, where a high circular dichroism greater than 0.9 persists across a wide range of angles from -11 to 11 degrees. Second, engineered lateral displacement induces a unidirectional chiral resonance, resulting in unidirectional chiral emission from the quantum dots deposited onto the metasurface. Our bi-layer metasurfaces offer a universal compact platform for efficient radiation manipulation over a wide angular range, promising potential applications in miniaturized lasers, grating couplers, and chiral nanoantennas., Comment: 16 pages, 4 figures

Published

2024

2. Silicon Nanoantenna Mix Arrays for a Trifecta of Quantum Emitter Enhancements

Author

Dong, Zhaogang, Gorelik, Sergey, Paniagua-Dominguez, Ramón, Yik, Johnathan, Ho, Jinfa, Tjiptoharsono, Febiana, Lassalle, Emmanuel, Rezaei, Soroosh Daqiqeh, Neo, Darren C. J., Bai, Ping, Kuznetsov, Arseniy I., and Yang, Joel K. W.

Subjects

Physics - Optics

Abstract

Dielectric nanostructures have demonstrated optical antenna effects due to Mie resonances. Preliminary investigations on dielectric nanoantennas have been carried out for a trifecta of enhancements, i.e., simultaneous enhancements in absorption, emission directionality and radiative decay rates of quantum emitters. However, these investigations are limited by fragile substrates or low Purcell factor, which is extremely important for exciting quantum emitters electrically. In this paper, we present a Si mix antenna array to achieve the trifecta enhancement of ~1200 fold with a Purcell factor of ~47. The antenna design incorporates ~10 nm gaps within which fluorescent molecules strongly absorb the pump laser energy through a resonant mode. In the emission process, the antenna array increases the radiative decay rates of the fluorescence molecules via Purcell effect and provides directional emission through a separate mode. This work could lead to novel CMOS compatible platforms for enhancing fluorescence for biological and chemical applications., Comment: 20 pages, 4 figures

Published

2023

3. Engineering Perovskite Emissions via Optical Quasi-Bound-States-in-the-Continuum

Author

Csányi, Evelin, Liu, Yan, Rezaei, Soroosh Daqiqeh, Lee, Henry Yit Loong, Tjiptoharsono, Febiana, Mahfoud, Zackaria, Gorelik, Sergey, Zhao, Xiaofei, Lim, Li Jun, Zhu, Di, Wu, Jing, Goh, Kuan Eng Johnson, Gao, Weibo, Tan, Zhi-Kuang, Leggett, Graham, Qiu, Cheng-Wei, and Dong, Zhaogang

Subjects

Physics - Optics, Physics - Applied Physics

Abstract

Metal halide perovskite quantum dots (PQDs) have emerged as promising materials due to their exceptional photoluminescence (PL) properties. A wide range of applications could benefit from adjustable luminescence properties, while preserving the physical and chemical properties of the PQDs. Therefore, post-synthesis engineering has gained attention recently, involving the use of ion-exchange or external stimuli, such as extreme pressure, magnetic and electric fields. Nevertheless, these methods typically suffer from spectrum broadening, intensity quenching or yield multiple bands. Alternatively, photonic antennas can modify the radiative decay channel of perovskites via the Purcell effect, with the largest wavelength shift being 8 nm to date, at an expense of 5-fold intensity loss. Here, we present an optical nanoantenna array with polarization-controlled quasi-bound-states-in-the-continuum (q-BIC) resonances, which can engineer and shift the photoluminescence wavelength over a ~39 nm range and confers a 21-fold emission enhancement of FAPbI3 perovskite QDs. The spectrum is engineered in a non-invasive manner via lithographically defined antennas and the pump laser polarization at ambient conditions. Our research provides a path towards advanced optoelectronic devices, such as spectrally tailored quantum emitters and lasers., Comment: 39 pages, 4 figures in the main text and 10 figures in the supporting information

Published

2023

4. Enhancing cooperativity of molecular J-aggregates by resonantly coupled dielectric metasurfaces

Author

Marangi Marco, Wang Yutao, Wu Mengfei, Tjiptoharsono Febiana, Kuznetsov Arseniy I., Adamo Giorgio, and Soci Cesare

Subjects

metasurfaces, j-aggregates, photoluminescence enhancement, superradiance, cooperativity, Physics, QC1-999

Abstract

J-aggregates are supramolecular assemblies of dyes exhibiting strong absorption and fluorescence with narrow linewidths, as well as large optical nonlinearities, induced by the formation of largely delocalized molecular excitons. The degree of cooperativity achievable in J-aggregates ensembles, however, is limited by local disorder and thermally induced decoherence effects. A way to overcome these limitations and increase molecular exciton delocalization and coherence is to couple the ensemble of highly ordered molecular dipoles to a common electromagnetic mode in an optical resonator. In this work, we use dielectric metasurfaces to alter the radiative properties of coupled J-aggregate films and demonstrate a 5-fold Purcell enhancement of the luminesce intensity and narrowing of the emission directivity down to ∼300 mrad around the normal. These results highlight the potential of designer dielectric metasurfaces to foster the emergence of cooperative phenomena in excitonic systems, including optical nonlinearities and superradiance.

Published

2024

5. Miniaturizing Color-Sensitive Photodetectors via Hybrid Nanoantennas towards Sub-micron Dimensions

Author

Ho, Jinfa, Dong, Zhaogang, Leong, Hai Sheng, Zhang, Jun, Tjiptoharsono, Febiana, Rezaei, Soroosh Daqiqeh, Goh, Ken Choon Hwa, Wu, Mengfei, Li, Shiqiang, Chee, Jingyee, Wong, Calvin Pei Yu, Kuznetsov, Arseniy I., and Yang, Joel K. W.

Subjects

Physics - Optics, Physics - Applied Physics

Abstract

Digital camera sensors utilize color filters on photodiodes to achieve color selectivity. As color filters and photosensitive silicon layers are separate elements, these sensors suffer from optical cross-talk, which sets limits to the minimum pixel size. In this paper, we report hybrid silicon-aluminum nanostructures in the extreme limit of zero distance between color filters and sensors. This design could essentially achieve sub micron pixel dimensions and minimize the optical cross-talk originated from tilt illuminations. The designed hybrid silicon-aluminum nanostructure has dual functionalities. Crucially, it supports a hybrid Mie-plasmon resonance of magnetic dipole to achieve the color-selective light absorption, generating electron hole pairs. Simultaneously, the silicon-aluminum interface forms a Schottky barrier for charge separation and photodetection. This design could potentially replace the traditional dye based filters for camera sensors at ultra-high pixel densities with advanced functionalities in sensing polarization and directionality, as well as UV selectivity via interband plasmons of silicon., Comment: 32 pages, 4 Figures (main text), 7 Figures (supplementary)

Published

2022

6. Coupling Spin Defects in Hexagonal Boron Nitride to Titanium Oxide Ring Resonators

Author

Nonahal, Milad, Li, Chi, Tjiptoharsono, Febiana, Ding, Lu, Stewart, Connor, Scott, John, Toth, Milos, Ha, Son Tung, Kianinia, Mehran, and Aharonovich, Igor

Subjects

Physics - Optics

Abstract

Spin-dependent optical transitions are attractive for a plethora of applications in quantum technologies. Here we report on utilization of high quality ring resonators fabricated from TiO2 to enhance the emission from negatively charged boron vacancies in hexagonal Boron Nitride. We show that the emission from these defects can efficiently couple into the whispering gallery modes of the ring resonators. Optically coupled boron vacancy showed photoluminescence contrast in optically detected magnetic resonance signals from the hybrid coupled devices. Our results demonstrate a practical method for integration of spin defects in 2D materials with dielectric resonators which is a promising platform for quantum technologies.

Published

2022

7. Schrodinger's Red Pixel by Quasi Bound-State-In-Continuum

Author

Dong, Zhaogang, Jin, Lei, Rezaei, Soroosh Daqiqeh, Wang, Hao, Chen, Yang, Tjiptoharsono, Febiana, Ho, Jinfa, Gorelik, Sergey, Ng, Ray Jia Hong, Ruan, Qifeng, Qiu, Cheng-Wei, and Yang, Joel K. W.

Subjects

Physics - Optics, Physics - Applied Physics

Abstract

While structural colors are ubiquitous in nature, saturated reds are mysteriously absent. Hence, a longstanding problem is in fabricating nanostructured surfaces that exhibit reflectance approaching the theoretical limit. This limit is termed the Schrodinger red and demands sharp spectral transitions from "stopband" to a high reflectance "passband" with total suppression of higher-order resonances at blue and green wavelengths. Current approaches based on metallic or dielectric nanoantennas are insufficient to simultaneously meet these conditions. Here, for the 1st time, we designed and fabricated tall Si nanoantenna arrays on quartz substrate to support two partially overlapping y polarized quasi bound-state-in-the-continuum (q-BIC) modes in the red wavelengths with sharp spectral edges. These structures produce possibly the most saturated and brightest reds with ~80% reflectance, exceeding the red vertex in sRGB and even the cadmium red pigment. We employed a gradient descent algorithm with structures supporting q BIC as the starting point. Although the current design is polarization dependent, the proposed paradigm has enabled us to achieve the elusive structural red and the design principle could be generalized to Schrodinger's pixels of other colors. The design is suitable for scale up using other nanofabrication techniques for larger area applications, such as red pixels in displays, decorative coatings, and miniaturized spectrometers with high wavelength selectivity., Comment: 40 pages, 4 figures in the main text, 15 figures in the supplementary information

Published

2021

8. Photonic Bound-States-in-the-Continuum Observed with an Electron Nanoprobe

Author

Dong, Zhaogang, Mahfoud, Zackaria, Paniagua-Domínguez, Ramón, Wang, Hongtao, Fernández-Domínguez, Antonio I., Gorelik, Sergey, Ha, Son Tung, Tjiptoharsono, Febiana, Kuznetsov, Arseniy I., Bosman, Michel, and Yang, Joel K. W.

Subjects

Physics - Optics

Abstract

Bound-states-in-the-continuum (BIC)is a wave-mechanical concept that generates resonances with vanishing spectral linewidths. It has many practical applications in Optics, such as narrow-band filters, mirror-less lasing, and nonlinear harmonic generation. As true BIC optical modes non-radiative and confined to the near field of nanostructures, they cannot be excited using propagating light. As a result, their direct experimental observation has been elusive. Rather than using light, we demonstrate probing BIC modes on arrays of silicon nanoantennas using a focused beam of electrons in a tranmission electron microscope. By combining cathodoluminescence (CL) and monochromated electron energy-loss spectroscopy (EELS) with controlled nanofabrication, we provide direct experimental evidence of "true" BIC modes, and demonstrate a BIC mode in the visible spectrum at 720 nm. The ability to observe and quantify these guided resonances with a spatial precision more than two orders of magnitude higher than previous far-field measurements allows the probing of individual elements in the nano-antenna arrays. The high-resolution experimental results are supported by numerical simulations as well as multipolar decomposition analysis, allowing us to demonstrate that the coherent interaction length of the quasi-BIC resonance requires at least 6 neighboring antenna elements, achieving over 60 times higher emissivity than for unpatterned silicon., Comment: 30 pages, 4 figures in the main text, 6 figures in the supplementary information

Published

2021

9. Reversible electrical switching of nanostructural color pixels

Author

Zhang Shutao, Zhang Jun, Goh Wei Peng, Liu Yan, Tjiptoharsono Febiana, Lee Henry Yit Loong, Jiang Changyun, Ding Jun, Yang Joel K. W., and Dong Zhaogang

Subjects

mie resonance, reversible electrodeposition mirror, silicon nanostructures, tunable high-resolution color display, Physics, QC1-999

Abstract

Electrical switching of nanophotonic structural color elements is a promising approach towards addressable color switching pixels for next generation reflective displays. However, electrical switching between the primary colors to colorless near-white state remains a challenge. Here, we present a reversible electrical switching approach, relying on the electrocoagulation of Ag nanoparticles between silicon nanostructures that support Mie resonances. The electrodeposited Ag nanoparticles enable the excitation of the hybrid plasmon-Mie resonance as supported on Ag-silicon nanostructures, resulting in a large spectral transformation. Importantly, this process is reversible. This device design outperforms other designs in terms of electrotonic color control since it is highly stable and reliable for use in high-resolution reflective displays, such as colored electronic papers and smart display glass, where the combination is scalable to other nanostructure designs and electrolytic solutions.

Published

2023

10. Nanoscale mapping of optically inaccessible bound-states-in-the-continuum

Author

Dong, Zhaogang, Mahfoud, Zackaria, Paniagua-Domínguez, Ramón, Wang, Hongtao, Fernández-Domínguez, Antonio I., Gorelik, Sergey, Ha, Son Tung, Tjiptoharsono, Febiana, Kuznetsov, Arseniy I., Bosman, Michel, and Yang, Joel K. W.

Published

2022

11. Engineering and Controlling Perovskite Emissions via Optical Quasi‐Bound‐States‐in‐the‐Continuum.

Author

Csányi, Evelin, Liu, Yan, Rezaei, Soroosh Daqiqeh, Lee, Henry Yit Loong, Tjiptoharsono, Febiana, Mahfoud, Zackaria, Gorelik, Sergey, Zhao, Xiaofei, Lim, Li Jun, Zhu, Di, Wu, Jing, Goh, Kuan Eng Johnson, Gao, Weibo, Tan, Zhi‐Kuang, Leggett, Graham, Qiu, Cheng‐Wei, and Dong, Zhaogang

Subjects

AUTOMATIC control systems, ENGINEERS, LASER pumping, ELECTRIC fields, EMISSION control, PEROVSKITE

Abstract

Metal halide perovskite quantum dots (PQDs) have emerged as promising materials due to their exceptional photoluminescence (PL) properties. A wide range of applications could benefit from adjustable luminescence properties, while preserving the physical and chemical properties of the PQDs. Therefore, post‐synthesis engineering has gained attention recently, involving the use of ion‐exchange or external stimuli, such as extreme pressure, magnetic and electric fields. Nevertheless, these methods typically suffer from spectrum broadening, intensity quenching or yield multiple bands. Alternatively, photonic antennas can modify the radiative decay channel of perovskites via the Purcell effect, with the largest wavelength shift being 8 nm to date, at an expense of fivefold intensity loss. Here, this work presents an optical nanoantenna array with polarization‐controlled quasi‐bound‐states‐in‐the‐continuum resonances, which can engineer and shift the photoluminescence wavelength over a ≈39 nm range and confers a 21‐fold emission enhancement of FAPbI3 perovskite QDs. The spectrum is engineered in a non‐invasive manner via lithographically defined antennas and the pump laser polarization at ambient conditions. This research provides a path toward advanced optoelectronic devices, such as spectrally tailored quantum emitters and lasers. [ABSTRACT FROM AUTHOR]

Published

2024

12. Miniaturizing color-sensitive photodetectors via hybrid nanoantennas toward submicrometer dimensions

Author

Ho, Jinfa, primary, Dong, Zhaogang, additional, Leong, Hai Sheng, additional, Zhang, Jun, additional, Tjiptoharsono, Febiana, additional, Daqiqeh Rezaei, Soroosh, additional, Goh, Ken Choon Hwa, additional, Wu, Mengfei, additional, Li, Shiqiang, additional, Chee, Jingyee, additional, Wong, Calvin Pei Yu, additional, Kuznetsov, Arseniy I., additional, and Yang, Joel K. W., additional

Published

2022

13. Schrödinger’s red pixel by quasi-bound-states-in-the-continuum

Author

Dong, Zhaogang, primary, Jin, Lei, additional, Rezaei, Soroosh Daqiqeh, additional, Wang, Hao, additional, Chen, Yang, additional, Tjiptoharsono, Febiana, additional, Ho, Jinfa, additional, Gorelik, Sergey, additional, Ng, Ray Jia Hong, additional, Ruan, Qifeng, additional, Qiu, Cheng-Wei, additional, and Yang, Joel K. W., additional

Published

2022

14. Coupling spin defects in hexagonal boron nitride to titanium dioxide ring resonators

Author

Nonahal, Milad, primary, Li, Chi, additional, Tjiptoharsono, Febiana, additional, Ding, Lu, additional, Stewart, Connor, additional, Scott, John, additional, Toth, Milos, additional, Ha, Son Tung, additional, Kianinia, Mehran, additional, and Aharonovich, Igor, additional

Published

2022

15. Slider surface control for ultra-high density recording

Author

Tjiptoharsono, Febiana, Gonzaga, Leonard Verano, Zhang, Mingsheng, Hua, Wei, and Liu, Bo

Published

2010

16. Approaches to reduce effect of short-range interactions in head disk interface

Author

Zhang, Mingsheng, Liu, Bo, and Tjiptoharsono, Febiana

Published

2009

17. Silicon Nanoantenna Mix Arrays for a Trifecta of Quantum Emitter Enhancements

Author

Dong, Zhaogang, primary, Gorelik, Sergey, additional, Paniagua-Dominguez, Ramón, additional, Yik, Johnathan, additional, Ho, Jinfa, additional, Tjiptoharsono, Febiana, additional, Lassalle, Emmanuel, additional, Rezaei, Soroosh Daqiqeh, additional, Neo, Darren C. J., additional, Bai, Ping, additional, Kuznetsov, Arseniy I., additional, and Yang, Joel K. W., additional

Published

2021

18. Bio-inspired Photonic Masquerade with Perturbative Metasurfaces

Author

Huang, Kun, primary, Zhao, Dong, additional, Tjiptoharsono, Febiana, additional, Chen, Yunjie, additional, Wong, Calvin Pei Yu, additional, Tang, Xiaosong, additional, Yang, Joel K. W., additional, and Dong, Zhaogang, additional

Published

2020

19. Ultraviolet Interband Plasmonics With Si Nanostructures

Author

Dong, Zhaogang, primary, Wang, Tao, additional, Chi, Xiao, additional, Ho, Jinfa, additional, Tserkezis, Christos, additional, Yap, Sherry Lee Koon, additional, Rusydi, Andrivo, additional, Tjiptoharsono, Febiana, additional, Thian, Dickson, additional, Mortensen, N. Asger, additional, and Yang, Joel K. W., additional

Published

2019

20. Hybrid integrated single-wavelength laser with silicon micro-ring reflector

Author

Ren, Min, primary, Krishnamurthy, Vivek, primary, Gonzaga, Leonard, primary, Toh, Yeow Teck, primary, Tjiptoharsono, Febiana, primary, Wang, Qian, primary, Pu, Jing, primary, Xu, Zhengji, primary, Lee, Chee Wei, primary, and Li, Dongdong, primary

Published

2018

21. Generic Heterogeneously Integrated III–V Lasers-on-Chip With Metal-Coated Etched-Mirror

Author

Lee, Chee-Wei, primary, Ng, Doris Keh-Ting, additional, Ren, Min, additional, Fu, Yuan-Hsing, additional, Kay, Anthony Yew Seng, additional, Krishnamurthy, Vivek, additional, Pu, Jing, additional, Tan, Ai Ling, additional, Tjiptoharsono, Febiana, additional, Choo, Soo Bin, additional, and Wang, Qian, additional

Published

2016

22. Generic heterogeneously integrated III-V lasers-on-chip with metal-coated etched-mirror

Author

Lee, Chee-Wei, additional, Ng, Doris Keh-Ting, additional, Ren, Min, additional, Fu, Yuan-Hsing, additional, Kay, Anthony Yew Seng, additional, Krishnamurthy, Vivek, additional, Pu, Jing, additional, Tan, Ai Ling, additional, Tjiptoharsono, Febiana, additional, Choo, Soo Bin, additional, and Wang, Qian, additional

Published

2016

23. Heterogeneous Integrated III–V Laser on Thin SOI With Single-Stage Adiabatic Coupler: Device Realization and Performance Analysis

Author

Pu, Jing, primary, Krishnamurthy, Vivek, additional, Ng, Doris Keh Ting, additional, Lim, Kim Peng, additional, Lee, Chee-Wei, additional, Tang, Kun, additional, Kay, Anthony Yew Seng, additional, Loh, Ter-Hoe, additional, Tjiptoharsono, Febiana, additional, and Wang, Qian, additional

Published

2015

24. Development of Spin-Torque Oscillators and High${K}\!_{{u}}$CoPt Media With Small Grain Size for Microwave-Assisted Magnetic Recording

Author

Zhou, Tiejun, primary, Zhang, Mingsheng, additional, Cher, Kiat Min, additional, Wong, Hon Seng, additional, Chung, Hong Jing, additional, Low, Boon Hao, additional, Yang, Yi, additional, Liu, Zhejie, additional, and Tjiptoharsono, Febiana, additional

Published

2015

25. Light Delivery System for Heat-Assisted Magnetic Recording

Author

Hirata, Masakazu, primary, Tanabe, Sachiko, additional, Oumi, Manabu, additional, Park, Majung, additional, Chiba, Norio, additional, Gonzaga, Leonard V., additional, Yu, Shengkai, additional, Zhang, Mingsheng, additional, and Tjiptoharsono, Febiana, additional

Published

2009

26. Slider surface control for ultra-high density recording

Author

Tjiptoharsono, Febiana, primary, Gonzaga, Leonard Verano, additional, Zhang, Mingsheng, additional, Hua, Wei, additional, and Liu, Bo, additional

Published

2009

27. Development of Spin-Torque Oscillators and High K\!{u} CoPt Media With Small Grain Size for Microwave-Assisted Magnetic Recording.

Author

Zhou, Tiejun, Zhang, Mingsheng, Cher, Kiat Min, Wong, Hon Seng, Chung, Hong Jing, Low, Boon Hao, Yang, Yi, Liu, Zhejie, and Tjiptoharsono, Febiana

Subjects

TORQUE, COBALT platinum films, GRAIN size, MAGNETIC recording heads, MICROMAGNETICS, PERPENDICULAR magnetic recording, MAGNETORESISTANCE

Abstract

We report the selection of materials and design of spin-torque oscillators (STOs) which are able to operate in an alternative magnetic field (variable frequency) of magnitude \sim 8000 Oe, generate large enough in-plane ac magnetic field in the recording media, and have tunable high frequency at low driving current for microwave-assisted magnetic recording (MAMR) based on micromagnetic simulations. The mechanism and integration approaches of STOs with the current recording system to have the least driving current are also presented. This paper also covers the material choice, layer-stack optimization, and process development on Cox Pt1−x alloy films with extremely high coercivity of more than 1.5 T ( K_{u} of about \mathbf {1.5\times 10^{7}}$ erg/cc), well-isolated small grains of size 6–7 nm, for the extension of perpendicular magnetic recording and MAMR. [ABSTRACT FROM AUTHOR]

Published

2015

28. Generic heterogeneously integrated III-V lasers-on-chip with metal-coated etched-mirror

Author

He, Sailing, Lee, El-Hang, Eldada, Louay A., Lee, Chee-Wei, Ng, Doris Keh-Ting, Ren, Min, Fu, Yuan-Hsing, Kay, Anthony Yew Seng, Krishnamurthy, Vivek, Pu, Jing, Tan, Ai Ling, Tjiptoharsono, Febiana, Choo, Soo Bin, and Wang, Qian

Published

2016

29. Miniaturizing color-sensitive photodetectors via hybrid nanoantennas toward submicrometer dimensions.

Author

Jinfa Ho, Zhaogang Dong, Hai Sheng Leong, Jun Zhang, Tjiptoharsono, Febiana, Rezaei, Soroosh Daqiqeh, Ken Choon Hwa Goh, Mengfei Wu, Shiqiang Li, Jingyee Chee, Calvin Pei Yu Wong, Kuznetsov, Arseniy I., and Yang, Joel K. W.

Subjects

*PHOTODETECTORS, *OPTICAL antennas, *COMPLEMENTARY metal oxide semiconductors

Abstract

The article presents a study on hybrid silicon-aluminum nanostructures in the extreme limit of zero distance between sensors and color filters in digital cameras. Topics discussed include the dual functionalities of the hybrid silicon-aluminum nanostructure, the design of the color-sensitive detectors with hybrid Mie-plasmon resonance, and fabrication of silicon nanoantenna array.

Published

2022

30. Schrödinger's red pixel by quasi-bound-statesin-the-continuum.

Author

Zhaogang Dong, Lei Jin, Rezaei, Soroosh Daqiqeh, Hao Wang, Yang Chen, Tjiptoharsono, Febiana, Jinfa Ho, Gorelik, Sergey, Ray Jia Hong Ng, Qifeng Ruan, Cheng-Wei Qiu, and Yang, Joel K. W.

Subjects

*OPTICAL resonance, *OPTICAL polarization, *FOCAL planes, *NUMERICAL apertures, *SILICON nanowires, *PLASMA-enhanced chemical vapor deposition, *SEMICONDUCTOR lasers

Abstract

The article discusses that long-standing problem of achieving Schrödinger's red demands sharp transitions from stopband to a high-reflectance passband with total suppression of higher-order resonances at blue/green wavelengths. It mentions about the proposed paradigm of the Schrödinger's color pixels.

Published

2022

31. Unidirectional Chiral Emission via Twisted Bi-layer Metasurfaces.

Author

Gromyko D, An S, Gorelik S, Xu J, Lim LJ, Lee HYL, Tjiptoharsono F, Tan ZK, Qiu CW, Dong Z, and Wu L

Abstract

Controlling and channeling light emissions from unpolarized quantum dots into specific directions with chiral polarization remains a key challenge in modern photonics. Stacked metasurface designs offer a potential compact solution for chirality and directionality engineering. However, experimental observations of directional chiral radiation from resonant metasurfaces with quantum emitters remain obscure. In this paper, we present experimental observations of unidirectional chiral emission from a twisted bi-layer metasurface via multi-dimensional control, including twist angle, interlayer distance, and lateral displacement between the top and bottom layers, as enabled by doublet alignment lithography (DAL). First, maintaining alignment, the metasurface demonstrates a resonant intrinsic optical chirality with near-unity circular dichroism of 0.94 and reflectance difference of 74%, where a high circular dichroism greater than 0.9 persists across a wide range of angles from -11 to 11 degrees. Second, engineered lateral displacement induces a unidirectional chiral resonance, resulting in unidirectional chiral emission from the quantum dots deposited onto the metasurface. Our bi-layer metasurfaces offer a universal compact platform for efficient radiation manipulation over a wide angular range, promising potential applications in miniaturized lasers, grating couplers, and chiral nanoantennas., Competing Interests: Competing interests The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024