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Publications

​Selected Articles

nalefd.2024.24.issue-5.xlargecover-5.jpg

About the Cover: A depth-sensing system that leverages the metasurface and photonic crystal surface-emitting laser, enabling facial recognition in structured light technology and monocular depth sensing. This projects more infrared dots within a larger field of view, providing promising future spatial computing systems with remarkable advantages in a smaller form factor and with lower power consumption. 

Nano Letters 24(5), 1808–1815 (2024) - LINK & PDF 

SS_20240201.jpg

44. Metasurface- and PCSEL-based structured light for monocular depth perception and facial recognition

W.-C. Hsu, C.-H. Chang, Y.-H. Hong*, H.-C. Kuo*, and Y.-W. Huang* 

Nano Letters 24(5), 1808–1815 (2024) - LINK & PDF 

Press release from ACS PressPacs and others "A sleeker facial recognition technology tested on Michelangelo’s David"

SS_20220504.jpg

37. Inverse design enables large-scale high-performance meta-optics reshaping virtual reality

Z. Li, R. Pestourie, J.-S. Park, Y.-W. Huang, S. G. Johnson, and F. Capasso

Nature Communications 13, 2409 (2022) - LINK & PDF

SS_20220214.jpg

35. Metasurface-based bijective illumination collection imaging provides high-resolution tomography in three dimensions

M. Pahlevaninezhad, Y.-W. Huang, M. Pahlevani, B. Bouma, M. J. Suter, F. Capasso, and H. Pahlevaninezhad

Nature Photonics 16, 203–211 (2022) - LINKPDF

SS_20211111.jpg

34. Slow light nanocoatings for ultrashort pulse compression

M. Ossiander, Y.-W. Huang, W.T. Chen, Z. Wang, X. Yin, Y. A. Ibrahim, M. Schultze, and F. Capasso

Nature Communications 12, 6518 (2021) - LINK & PDF

Press release from SEAS Harvard News

SS_20210127.png

33. Meta-optics achieves RGB-achromatic focusing for virtual reality

Z. Li, P. Lin, Y.-W. Huang, J.-S. Park, W. T. Chen, Z. Shi, C.-W. Qiu, J.-X. Cheng, and F. Capasso

Science Advances 7(5), eabe4458 (2021) - LINK & PDF

Press release from SEAS Harvard News, Optics and Photonics NewsPhys.org, and EurekAlert!

SS2.jpg

32. High-purity orbital angular momentum states from a visible metasurface laser

H. Sroor, Y.-W. Huang, B. Sephton, D. Naidoo, A. Vallés​, C.-W. Qiu, A. Ambrosio, F. Capasso, and A. Forbes

Nature Photonics 14, 498–503 (2020) - LINK & PDF

Press release from Phys.org and PhysicsWorld

Related article from Photonics Spectra

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30. Structured semiconductor interfaces: Active functionality on light manipulation

Y.-W. Huang*, H.-X. Xu, S. Sun, Y. Wu, Z. Wang, S. Xiao, W. X. Jiang, T. J. Cui, D. P. Tsai, and C.-W. Qiu*

Proceedings of the IEEE 108(5), 772−794 (2020) - LINK & PDF

SS1.jpg

24. Nano-optic endoscope for high-resolution optical coherence tomography in vivo

H. Pahlevaninezhad†, M. Khorasaninejad†, Y.-W. Huang†, Z. Shi, L. P. Hariri, D. C. Adams, V. Ding, A Zhu, C.-W. Qiu, F. Capasso, and M. J. Suter

Nature Photonics 12, 540–547 (2018) - LINK & PDF

Press release from SEAS Harvard News and Phys.org

SS_20160902.jpg

15. Gate-tunable conducting oxide metasurfaces

Y.-W. Huang, H. W. H. Lee, R. Sokhoyan, R. A. Pala, K. Thyagarajan, S. Han, D. P. Tsai, and H. A. Atwater

Nano Letters 16(9), 5319–5325 (2016) - LINK & PDF

Selected Articles

Journal Articles

Publication Statistics (by July 2, 2024):

H-index: 29; Citations: 6,340 from Google Scholar

H-index: 29; Citations: 4,910 from Web of Science

H-index: 29; Citations: 5,257 from Elsevier Scopus

H-index: 28; FWCI: 2.70 from SciVal
 

2024:

44. Metasurface- and PCSEL-based structured light for monocular depth perception and facial recognition

W.-C. Hsu, C.-H. Chang, Y.-H. Hong*, H.-C. Kuo*, and Y.-W. Huang*

Nano Letters 24(5), 1808–1815 (2024) - LINK & PDF

Press release from ACS PressPacs and others "A sleeker facial recognition technology tested on Michelangelo’s David"

2023:

43. Dynamic control of topological charge of vector vortex in PCSELs with C6 symmetry

C.-J. Chang, Y.-W. Chen, L.-R. Chen, K.-B. Hong, J.-S. Wu, Y.-W. Huang, and T.-C. Lu

ACS Photonics 10(12), 4112–4120 (2023) - LINK & PDF

42. Metasurface-driven polarization-division multiplexing of PCSEL for optical communications

W.-C. Miao, C.-H. Chang, F.-H. Hsiao, Y.-H. Chang, J.-H. Huang, H.-T. Su, C.-Y. Lin, C.-L. Lin, C.-W. Chow, Y.-H. Hong*, Y.-W. Huang*, and H.-C. Kuo

Discover Nano (formerly Nanoscale Research Letters) 18, 149 (2023) - LINK & PDF

41. Design of high-efficiency and large-angle homo-metagratings for light source integration

W.-C. Tsai, Y.-H. Hong, H.-C. Kuo, and Y.-W. Huang*

Optics Express 31(15), 24404-24411 (2023) - LINK & PDF

40. Compact structured light generation based on meta-hologram PCSEL integration

W.-C. Hsu, C.-H. Chang, Y.-H. Hong*, H.-C. Kuo*, and Y.-W. Huang*

Discover Nano (formerly Nanoscale Research Letters) 18, 87 (2023) - LINK & PDF

2022:

39. Static beam steering by applying metasurfaces on photonic-crystal surface-emitting lasers

L.-R. Chen, C.-J. Chang, K.-B. Hong, W.-C. Weng, B.-H. Chuang, Y.-W. Huang, and T.-C. Lu

Journal of Lightwave Technology 40(21), 71367141 (2022) - LINK & PDF

 

38. Review of metasurfaces and metadevices: Advantages of different materials and fabrications

W.-L. Hsu, Y.-C. Chen, S. P. Yeh, Q.-C. Zeng, Y.-W. Huang*, and C.-M. Wang*

Nanomaterials 12(12), 1973 (2022) - LINK & PDF

37. Inverse design enables large-scale high-performance meta-optics reshaping virtual reality

Z. Li, R. Pestourie, J.-S. Park, Y.-W. Huang, S. G. Johnson, and F. Capasso

Nature Communications 13, 2409 (2022) - LINK & PDF

36. Ultracompact nanophotonics: Light emission and manipulation with metasurfaces

Y.-H. Hong, W.-C. Hsu, W.-C. Tsai, Y.-W. Huang*, S.-C. Chen*, and H.-C. Kuo*

Nanoscale Research Letters 17, 41 (2022) - LINK & PDF

35. Metasurface-based bijective illumination collection imaging provides high-resolution tomography in three dimensions

M. Pahlevaninezhad, Y.-W. Huang, M. Pahlevani, B. Bouma, M. J. Suter, F. Capasso, and H. Pahlevaninezhad

Nature Photonics 16, 203–211 (2022) - LINKPDF 

 

2021:

34. Slow light nanocoatings for ultrashort pulse compression

M. Ossiander, Y.-W. Huang, W. T. Chen, Z. Wang, X. Yin, Y. A. Ibrahim, M. Schultze, and F. Capasso

Nature Communications 12, 6518 (2021) - LINK & PDF

Press release from SEAS Harvard News

33. Meta-optics achieves RGB-achromatic focusing for virtual reality

Z. Li, P. Lin, Y.-W. Huang, J.-S. Park, W. T. Chen, Z. Shi, C.-W. Qiu, J.-X. Cheng, and F. Capasso

Science Advances 7(5), eabe4458 (2021) - LINK & PDF

Press release from SEAS Harvard News, Optics and Photonics NewsPhys.org, and EurekAlert!

2020:

32. High-purity orbital angular momentum states from a visible metasurface laser

H. Sroor, Y.-W. Huang, B. Sephton, D. Naidoo, A. Vallés​, C.-W. Qiu, A. Ambrosio, F. Capasso, and A. Forbes

Nature Photonics 14, 498–503 (2020) - LINK & PDF

Press release from Phys.org and PhysicsWorld

Related article from Photonics Spectra

31. Continuous angle-tunable birefringence with freeform metasurfaces for arbitrary polarization conversion

Z. Shi, A. Y. Zhu, Z. Li, Y.-W. Huang, W. T. Chen, C.-W. Qiu, and F. Capasso

Science Advances 6(23), eaba3367 (2020) - LINK & PDF

Press release from SEAS Harvard News and Phys.org

30. Structured semiconductor interfaces: Active functionality on light manipulation

Y.-W. Huang*, H.-X. Xu, S. Sun, Y. Wu, Z. Wang, S. Xiao, W. X. Jiang, T. J. Cui, D. P. Tsai, and C.-W. Qiu*

Proceedings of the IEEE 108(5), 772–794 (2020) - LINK & PDF

29. Enhancing the modal purity of orbital angular momentum photons

I. Nape, B. Sephton, Y.-W. Huang, A. Vallés, C.-W. Qiu, A. Ambrosio, F. Capasso, and A. Forbes

APL Photonics 5, 070802 (2020) - LINK & PDF

 

28. Purity and efficiency of hybrid orbital angular momentum-generating metasurfaces

B. Sephton, Y.-W. Huang, A. Ambrosio, C.-W. Qiu, A. Vallés, F. Capasso, and A. Forbes

Journal of Nanophotonics 14(1), 016005 (2020) - LINK & PDF

2019:

27. Dielectric multi-momentum meta-transformer in the visible

L. Jin†, Y.-W. Huang†, Z. Jin†, R. C. Devlin, Z. Dong, S. Mei, M. Jiang, W.-T. Chen, Z. Wei, H. Liu, J. Teng, A. Danner, X. Li, S. Xiao, S. Zhang, C. Yu, J.K.W. Yang, F. Capasso, and C.-W. Qiu

Nature Communications 10, 4789 (2019) - LINK & PDF

26. Compact single-shot metalens depth sensors inspired by eyes of jumping spiders

Q. Guo, Z. Shi, Y.-W. Huang, E. Alexander, C.-W. Qiu, F. Capasso, and T. Zickler
PNAS USA 116(46), 22959–22965 (2019) - LINK & PDF
Press release from SEAS Harvard NewsYouTube, and ELE Times

25. Versatile total angular momentum generation using cascaded J-plates

Y.-W. Huang, N. A. Rubin, A. Ambrosio, Z. Shi, R. C. Devlin, C.-W. Qiu, and F. Capasso
Optical Express 27(5), 7469–7484 (2019) - LINK & PDF

Before 2018:

24. Nano-optic endoscope for high-resolution optical coherence tomography in vivo

H. Pahlevaninezhad†, M. Khorasaninejad†, Y.-W. Huang†, Z. Shi, L. P. Hariri, D. C. Adams, V. Ding, A Zhu, C.-W. Qiu, F. Capasso, and M. J. Suter
Nature Photonics 12, 540–547 (2018) - LINK & PDF
Press release from SEAS Harvard News and Phys.org

23. Localized self-growth of reconfigurable architectures induced by a femtosecond laser on a shape-memory polymer

Y. Zhang, Y. Li, Y. Hu, X. Zhu, Y. Huang, Z. Zhang, S. Rao, Z. Hu, W. Qiu, Y. Wang, G. Li, L. Yang, J. Li, D. Wu, W. Huang, C. Qiu, and J. Chu
Advanced Materials 30, 1803072 (2018).  - LINK & PDF

22. Single-layer metasurface with controllable multi-wavelength functions

Z. Shi†, M. Khorasaninejad†, Y.-W. Huang†, C. Roques-Carmes, A. Y. Zhu, W. T. Chen, V. Sanjeev, Z.-W. Ding, M. Tamagnone, K. Chaudhary, R. C. Devlin, C.-W. Qiu, and F. Capasso
Nano Letters 18(4), 2420–2427 (2018) - LINK & PDF
​Press release from SEAS Harvard News and Phys.org

21. Giant intrinsic chiro-optical activity in planar dielectric nanostructures

A. Y. Zhu, W. T. Chen, A. Zaidi, Y.-W. Huang, M. Khorasaninejad, V. Sanjeev, C.-W. Qiu, and F. Capasso
Light: Science & Applications 7, 17158 (2018) 
- LINK & PDF

20. Broadband achromatic metasurface-refractive optics

W. T. Chen, A. Y. Zhu, J. Sisler, Y.-W. Huang, K. M. A. Yousef, E. Lee, C.-W. Qiu, and F. Capasso
Nano Letters 18(12), 7801–7808 (2018) - LINK & PDF

Press release from SEAS Harvard News

19. Optical anapole metamaterial

P. C. Wu, C. Y. Liao, V. Savinov, T. L. Chung, W. T. Chen, Y.-W. Huang, P. R. Wu, Y.-H. Chen, A.-Q. Liu, N. I. Zheludev, and D. P. Tsai
ACS Nano 12(2), 1920–1927 (2018) - LINK & PDF

18. Ultrathin planar cavity metasurfaces

H.-C. Wang, C. H. Chu, P. C. Wu, H.-H. Hsiao, H. J. Wu, J.-W. Chen, W. H. Lee, Y.-C. Lai, Y.-W. Huang, M. L. Tseng, S.-W. Chang, and D. P. Tsai
Small 14, 1703920 (2018) 
- LINK & PDF

17. Compact aberration-corrected spectrometers in the visible using dispersion-tailored metasurfaces

A. Y. Zhu, W. T. Chen, J. Sisler, K. M. A. Yousef, E. Lee, Y.-W. Huang, C.-W. Qiu, and F. Capasso
Advanced Optical Materials 7(14), 1801144 (2018) 
- LINK & PDF

16. Versatile polarization generation with an aluminum plasmonic metasurface

P. C. Wu, W.-Y. Tsai, W. T. Chen, Y.-W. Huang, T.-Y. Chen, J.-W. Chen, C. Y. Liao, C. H. Chu, G. Sun, and D. P. Tsai

Nano Letters 17(1), 445–452 (2017) - LINK & PDF

Related article from SPIE Newsroom

15. Gate-tunable conducting oxide metasurfaces

Y.-W. Huang, H. W. H. Lee, R. Sokhoyan, R. A. Pala, K. Thyagarajan, S. Han, D. P. Tsai, and H. A. Atwater

Nano Letters 16(9), 5319–5325 (2016) - LINK & PDF

14. Aluminum plasmonic multicolor meta-hologram

Y.-W. Huang, W. T. Chen, W.-Y. Tsai, P. C. Wu, C.-M. Wang, G. Sun, and D. P. Tsai

Nano Letters 15(5), 3122–3127 (2015) - LINK & PDF

Press release from Phys.org

13. Vertical split-ring resonator based anomalous beam steering with high extinction ratio

W.-L. Hsu, P. C. Wu, J.-W. Chen, T.-Y. Chen, B. H. Cheng, W. T. Chen, Y.-W. Huang, C. Y. Liao, G. Sun, and D. P. Tsai

Scientific Reports 5, 11226 (2015) - LINK & PDF

12. Plasmon coupling in vertical split-ring resonator metamolecules

P. C. Wu, W.-L. Hsu, W. T. Chen, Y.-W. Huang, C. Y. Liao, A. Q. Liu, N. I. Zheludev, G. Sun, and D. P. Tsai

Scientific Reports 5, 9726 (2015) - LINK & PDF

11. Vertical split-ring resonator based nanoplasmonic sensor

P. C. Wu, G. Sun, W. T. Chen, K.-Y. Yang, Y.-W. Huang, Y.-H. Chen, H. L. Huang, W.-L. Hsu, H. P. Chiang, and D. P. Tsai

Applied Physics Letters 105, 033105 (2014) - LINK & PDF

10. High-efficiency broadband meta-hologram with polarization-controlled dual images

W. T. Chen, K.-Y. Yang, C.-M. Wang, Y.-W. Huang, G. Sun, I.-D. Chiang, C. Y. Liao, W.-L. Hsu, H. T. Lin, S. Sun, L. Zhou, A.-Q. Liu, and D. P. Tsai

Nano Letters 14(1), 225–230 (2014) - LINK & PDF

Press release from Phys.org 

Related article from SPIE Newsroom

9. Toroidal lasing spaser

Y.-W. Huang, W. T. Chen, P. C. Wu, V. A. Fedotov, N. I. Zheludev, and D. P. Tsai

Scientific Reports 3, 1237 (2013) - LINK

8. Fabrication of three-dimensional plasmonic cavity by femtosecond laser-induced forward transfer

W. T. Chen, M. L. Tseng, C. Y. Liao, P. C. Wu, S. Sun, Y.-W. Huang, C. M. Chang, C. H. Lu, L. Zhou, D.-W. Huang, A. Q. Liu, and D. P. Tsai

Optics Express 21(1), 618–625 (2013) - LINK

7. Design of plasmonic toroidal metamaterials at optical frequencies

Y.-W. Huang, W. T. Chen, P. C. Wu, V. Fedotov, V. Savinov, Y. Z. Ho, Y.-F. Chau, N. I. Zheludev, and D. P. Tsai

Optics Express 20(2), 1760–1768 (2012) - LINK

Related articles from SPIE Newsroom and 光學工程

6. Fast fabrication of a Ag nanostructure substrate using the femtosecond laser for broad-band and tunable plasmonic enhancement

M. L. Tseng, Y.-W. Huang, M.-K. Hsiao, H. W. Huang, H. M. Chen, Y. L. Chen, C. H. Chu, N.-N. Chu, Y. J. He, C. M. Chang, W. C. Lin, D.-W. Huang, H.-P. Chiang, R.-S. Liu, G. Sun, and D. P. Tsai

ACS Nano 6(6), 5190–5197 (2012) - LINK

5. Fabrication of plasmonic devices using femtosecond laser-induced forward transfer technique

M. L. Tseng, C. M. Chang, B. H. Chen, Y.-W. Huang, C. H. Chu, K. S. Chung, Y. J. Liu, H. G. Tsai, N.-N. Chu, D.-W. Huang, H.-P. Chiang, and D. P. Tsai

Nanotechnology 23, 444013 (2012) - LINK

4. Light manipulation by gold nanobumps

C. M. Chang, C. H. Chu, M. L. Tseng, Y.-W. Huang, H. W. Huang, B. H. Chen, D.-W. Huang, and D. P. Tsai

Plasmonics 7(3), 563–569 (2012) - LINK

3. Tunable plasmonic resonance arising from broken-symmetric silver nanobeads with dielectric cores

Y. Z. Ho, W. T. Chen, Y.-W. Huang, P. C. Wu, M. L. Tseng, Y. T. Wang, Y.-F. Chau, and D. P. Tsai

Journal of Optics 14(11), 114010 (2012) - LINK

2. Dispersion properties, birefringence and confinement loss of rotational elliptic air-hole photonic crystal fiber

T.-J. Yang, Y.-F. Chau, H.-H. Yeh, Z.-H. Jiang, Y.-W. Huang, K.-Y. Yang, and D. P. Tsai

Applied Physics A 104(3), 857–861 (2011) - LINK

1. Design of high birefringence and low confinement loss photonic crystal fibers with five rings hexagonal and octagonal symmetry air-holes in fiber cladding

K.-Y. Yang, Y.-F. Chau, Y.-W. Huang, H.-Y. Yeh, and D. P. Tsai

Journal of Applied Physics 109(9), 093103 (2011) - LINK

Journals

Conference Contributions

Conference Proceedings (in 5 years)

10. Compact structured light generation and depth perception from integration of metasurface and photonic crystal surface-emitting laser

W.-C. Hsu, C.-H. Chang, Y.-H. Hong, H.-C. Kuo, and Y.-W. Huang

2024 SPIE Photonics West, SPIE Proc. Vol. PC12897, PC1289709 (2024) - LINK

9. Depth sensing with metasurface and PCSEL integration

W.-C. Hsu, C.-H. Chang, Y.-H. Hong, H.-C. Kuo, and Y.-W. Huang

2023 SPIE Optics + Photonics, SPIE Proc. Vol. 12648, 1264806 (2023) - LINK

8. Extreme optics: inverse design and experimental realizations of ultra-large-area complex meta-optics

R. Pestourie, Z. Li, E. Bayati, J.-S. Park, Y.-W. Huang, S. Colburn, Z. Lin, A. Majumdar, F. Capasso, and S. G. Johnson

2021 Fifteenth International Congress on Artificial Materials for Novel Wave Phenomena (Metamaterials), 334-336, IEEE (2021) - LINK

7. Compact incoherent spatial frequency filtering enabled by metasurface engineering

D. S. Hazineh, Q. Guo, Z. Shi, Y.-W. Huang, T. Zickler, and F. Capasso

CLEO 2021OSA Technical Digest, paper FTu2M. 1 (2021) - LINK

6. Ultrashort pulse compression via metasurfaces

M. Ossiander, Y.-W. Huang, W.T. Chen, Z. Wang, Y.A. Ibrahim, M. Schultze, and F. Capasso

CLEO 2021OSA Technical Digest, paper FW3O. 3 (2021) - LINK

5. High-purity orbital angular momentum states from a visible metasurface laser

D. Naidoo, H. Sroor, Y.-W. Huang, B. Sephton, A. Vallés, V. Ginis, Q. Zhan, C.-W. Qiu, A. Ambrosio, F. Capasso, and A. Forbes

CLEO 2021OSA Technical Digest, paper STh1B. 3 (2021) - LINK

4. A Large RGB‐achromatic Metalens for Virtual/Augmented Reality Applications

Z. Li, P. Lin, Y.-W. Huang, J.-S. Park, W.-T. Chen, Z. Shi, J.-X. Cheng, and F. Capasso

SID International Symposium 2020, Digest of Technical Papers 51(1), 575-578 (2020) - LINK

3. A Metalens-Based Virtual Reality (VR) / Augmented Reality (AR) System

Z. Li, P. Lin, Y.-W. Huang, J.-S. Park, W. T. Chen, Z. Shi, J.-X. Cheng, and F. Capasso

CLEO 2020, OSA Technical Digest, paper ATh4I.2 (2020) - LINK

2. Generation of arbitrary higher order Poincaré beams from a visible metasurface laser

H. Sroor, Y.-W. Huang, B. Sephton, D. Naidoo, A. Valles, V. Ginis, Q. Zhan, C.-W. Qiu, A. Ambrosio, F. Capasso, and A. Forbes

SPIE Photonics West 2020, SPIE Proc. Vol. 11266, 112660L (2020) - LINK

1. High purity twisted light from a metasurface solid state resonator

H. Sroor, Y.-W. Huang, B. Sephton, D. Naidoo, A. Valles, V. Ginis, Q. Zhan, C.-W. Qiu, A. Ambrosio, F. Capasso, and A. Forbes

SPIE Photonics West 2020, SPIE Proc. Vol. 11259, 112590H (2020) - LINK

Recent Presentations:

35. Compact Depth Perception and Facial Recognition from Integration of Metasurface and PCSEL

Y.-W. Huang

2024 WOCC (the 33rd Wireless and Optical Communications Conference), Hsinchu, Taiwan (October 25-26, 2024)

Invited, technical program committee

 

34. Compact depth sensing and facial recognition from integration of metasurface and PCSEL

Y.-W. Huang, et al.,

2024 SPIE Optics + Photonics, 13111-33, San Diego, CA, USA (August 18 - 22, 2024, invited talk)

33. Compact depth sensing and facial recognition from integration of metasurface and photonic-crystal surface-emitting laser

Y.-W. Huang

2024 META, 1A15.7, Toyama, Japan (July 16-19, 2024, invited talk)

32. Metasurfaces and flat optics for AR and VR

Y.-W. Huang

Advanced Studies Institutes (ASI) Program 國際顯示科技暑期營, (June 17-23, 2024, instructor)

31. Compact Depth Sensing and Facial Recognition with Metasurfaces

Y.-W. Huang

2024 IWUMD (7th International Workshop on UV Materials and Devices), Taipei, Taiwan (June 2-5, 2024, invited talk)

30. 超穎介面於深度感知與臉部識別的應用

2024 MicroLED x METALENS光學應用論壇, 台灣光電暨化合物半導體產業協會 (TOSIA) (May 29, 2024)

29. 超穎介面於 AR/VR 、深度感知、光達的應用

和碩聯合科技 (May 2, 2024)

28. Compact structured light generation and depth perception from integration of metasurface and PCSEL

Y.-W. Huang

2024 MRS Spring Meeting, EL08.09.03, Seattle, WA, USA (April 22 - 26, 2024, oral and symposium organizer)

27. Compact depth perception from integration of metasurface and PCSEL

Y.-W. Huang

2024 SPIE Photonics Europe, 12991-53, Strasbourg, France (April 7 - 11,  2024, invited)

 

26. 從隱形斗篷到消失的手機瀏海 超穎介面的奈米光電新技術

i SEE 夢想家採訪 (April 1, 2024)

 

25. Compact structured light generation and depth perception from integration of metasurface and photonic crystal surface-emitting laser

Y.-W. Huang, et al.

2024 SPIE Photonics West, 12897-11, San Francisco, CA, USA (January 27 - Fabray 1, 2024, oral)

 

24. Depth sensing and facial recognition with metasurface and PCSEL integration

Y.-W. Huang, et al.

2024 物理年會, O3-SOE-002, NCU (January 24 - 26, 2024, oral)

 

23. 超穎介面的平面光學: 傳統光學新革命?

新竹高中微課程講座 (November 8, 2023)

22. Compact meta-devices for virtual reality and depth perception

Y.-W. Huang, et al.

2023 SPIE Optics + Photonics, 12648-54, San Diego, CA, USA (August 20-24, 2023, invited talk)

21. Compact meta-optics for virtual reality and depth perception

Plasma and Optics Seminar, UC Irvine (August 18, 2023)

20. Large-scale RGB-achromatic metalens for virtual reality and augmented reality

Y.-W. Huang, et al.

2023 MRS Spring Meeting, EL16.07.09, San Francisco, CA, USA (April 10 - 14, 2023, oral and symposium organizer)

19. Metasurfaces and Flat Optics for Imaging, Sensing, and Lasing Applications

Seminar in NTHU IPT 國立清華大學光電工程研究所 (March 17, 2023)

18. Large-scale RGB-achromatic metalens for virtual reality and augmented reality

Y.-W. Huang, et al.

2023 物理年會, O5-SOE-002, NCKU (January 16 - 18, 2023, oral)

17. Metasurfaces and Flat Optics for Imaging, Sensing, and Lasing Applications

Seminar in NTOU OMT 國立臺灣海洋大學光電與材料科技學系 (December 22, 2022)

16. Metasurfaces and Flat Optics for Imaging, Sensing, and Lasing Applications

Seminar in NCU DOP 國立中央大學光電科學與工程學系 (December 14, 2022)

15. Large-scale RGB-achromatic metalens for virtual reality and augmented reality

Y.-W. Huang, et al.

2022 OPTIC 光電年會, 2022-SAT-S1003-I001, NCU (December 2 - 4, 2022, invited talk)

14. Dispersion-engineered metasurfaces and RGB-achromatic metalens

Y.-W. Huang, et al.

2022 MRS Fall Meeting, EQ03.21.01, Boston, MA, USA (November 27 – December 2 & December 6-8, 2022, invited talk)

13. Dispersion-engineered metasurfaces for ultrafast pulse compression and large-scale RGB-achromatic focusing

Y.-W. Huang

2022 Optics & Photonics Japan, 202214aAJ3, Utsunomiya, Japan (Nov. 13-16, 2022, invited talk)

12. Metasurfaces and Flat Optics for Imaging, Sensing, and Lasing Applications

Seminar in NTUT EO 國立臺北科技大學光電工程系 (November 4, 2022)

11. 消色散超穎透鏡與其於 AR/VR 應用

微光學鍍膜顯示與 Metaverse 應用研討會, 2022 台北國際光電週 (OPTO Taiwan) (October 26, 2022)

10. 學生暑期實驗室線上探索晤談

臺中一中科學班 (July 27-28, 2022)

9. Dispersion-engineered metasurfaces for ultrafast pulse compression and large-scale RGB-achromatic focusing

Y.-W. Huang, et al.

2022 META, 3A14.14, Torremolinos, Spain (July 19-22, 2022, invited talk)

8. 消色散超穎透鏡與其於 AR/VR 應用

鴻海半導體集團 (June 6, 2022)

7. Ultrafast pulse compression and high-purity vortex beam generation with dielectric metasurfaces

Y.-W. Huang, et al.

2022 MRS Spring Meeting, EQ10.26.01, Honolulu, HI, USA (May 18-13 & May 23-25, 2022, invited talk)

6. Metasurfaces for Imaging, Sensing, and Lasing Applications

Seminar in NCKU DPS 國立成功大學光電科學與工程學系 (April 8, 2022)

5. Metasurfaces for Imaging, Sensing, and Lasing Applications

Seminar in NCKU MSE 國立成功大學材料科學及工程學系 (February 24, 2022)

4. Metasurface for ultrashort pulse compression

Y.-W. Huang, et al.

2022 物理年會, O6-OP-001, NTNU (January 26, 2022, Oral)

3. Metasurfaces for Imaging, Sensing, and Lasing Applications

AMO Seminar in NTHU Phys 國立清華大學物理系 (November 1, 2021)

2. Metasurface and flat optics: Revolution in optics

Largan Precision Company Limited 大立光電 (July 24, 2021)

1. 超穎介面的平面光學: 傳統光學新革命?

臺中一中書報討論講座 (June 2, 2021)

Conferences
Others

Other Articles

7. 超穎透鏡於虛擬實境與擴增實境的應用

黃耀緯

光連月刊 177, 104-108 (2022) - LINK & PDF

 

6. Supertwisted Light from a Metasurface Laser

Y.-W. Huang, H. Sroor, and D. Naidoo

Photonics Spectra 54(8), 34-36 (2020) - LINK & PDF

 

5. Integrated metasurface chip for versatile polarization generation

P. C. Wu, W.-Y. Tsai, W. T. Chen, Y.-W. Huang, T.-Y. Chen, J.-W. Chen, C. Y. Liao, C. H. Chu, G. Sun and D. P. Tsai 

SPIE Newsroom 14 July (2017) - LINK

 

4. Meta-holograms for colorful image storage

D. P. Tsai, W. T. Chen, K.-Y. Yang, Y.-W. Huang, I-D. Chiang, C. Y. Liao, C.-M. Wang, G. Sun, S. Sun, L. Zhou, and A. Q. Liu

SPIE Newsroom 19 November 2014 - LINK

 

3. 於光波段實現廣義斯涅耳定律-超穎介面

楊光宇, 陳威廷, 黃耀緯, 蔡定平

自然科學簡訊, 第25卷第4期, 169-173頁 (2013) - PDF

 

2. 光學波段表面電漿環形矩超穎材料之研究

黃耀緯, 蔡定平

光學工程, 第121期, 27-33頁 (2013) - PDF

 

1. Plasmonic toroidal resonance at optical frequencies

Y.-W. Huang, W. T. Chen, P. C. Wu, Y. Z. Ho, D. P. Tsai, V. Fedotov, V. Savinov, N. I. Zheludev and Y.-F. Chau 

SPIE Newsroom 01 June (2012) - LINK

Patents

Patents

11. 半導體元件及其製造方法 Semiconductor device and manufacturing method thereof

徐閺正, 洪瑜亨, 黃耀緯, 洪國彬, 郭浩中 (W.-C. Hsu, Y.-H. Hong, Y.-W. Huang, K.-B. Hong, and H.-C. Kuo)

TW Patent, TW I815646 (Sep. 11, 2023) - LINK & PDF

鴻海精密工業股份有限公司 & 國立陽明交通大學

Reference: Nano Letters 24(5), 1808–1815 (2024) - LINK & PDF

10. 發光裝置及其製造方法 Light emitting device and method of manufacturing thereof

洪瑜亨, 蔡維晟, 黃耀緯, 陳仕誠, 郭浩中 (Y.-H. Hong, W.-C. Tsai, Y.-W. Huang, S.-C. Chen, and H.-C. Kuo)

TW Patent, TW I805457 (Jun. 11, 2023) - LINK & PDF

鴻海精密工業股份有限公司 & 國立陽明交通大學

Reference: Optics Express 31(15), 24404-24411 (2023) - LINK & PDF

9. Compact metalens depth sensors

F. Capasso, T. Zickler, Q. Guo, Z. Shi, Y.-W Huang, and E. Alexander

US Patent, US 11578968 B1 (February 14, 2023) - LINK & PDF

Harvard College

Reference: PNAS USA 116(46), 22959–22965 (2019) - LINK & PDF

8. Meta-optics for virtual reality and augmented reality systems

Z. Li, Y.-W. Huang, P. Lin, J.-X. Cheng, and F. Capasso

US Patent, US 20210356754 A1 (November 18, 2021) - LINK & PDF

US Patent, US 11994687 B2 (May 28, 2024) - LINK & PDF

Harvard College and Boston University

Reference: Science Advances 6(23), eaba3367 (2020) - LINK & PDF

7. Achromatic multi-zone metalens

Z. Li, Y.-W. Huang, and F. Capasso

US Patent, US 20210263190 A1 (August 26, 2021) - LINK & PDF

Harvard College

Reference: Science Advances 6(23), eaba3367 (2020) - LINK & PDF

6. Endoscopic imaging using nanoscale metasurfaces

H. Pahlevaninezhad, M. Khorasaninejad, Y.-W. Huang, Z. Shi, F. Capasso, and M. J. Suter

US Patent, US 20210068665 A1 (March 11, 2021) - LINK & PDF

WIPO, WO WO 2019118646 A1 (June 20, 2019) - LINK & PDF

Harvard College, General Hospital Corp, & Mass General Brigham Inc

Reference: Nature Photonics 12, 540–547 (2018) - LINK & PDF

5. Spin-to-orbital angular momentum converter for light

Y.-W. Huang, F. Capasso, A. Ambrosio, N. A. Rubin, R. C. Devlin

WIPO, WO 2019108290 A1 (June 6, 2019) - LINK & PDF

WIPO, WO 2019108290 A9 (July 4, 2019) - LINK & PDF

Harvard College

References: Science 358(6365), 896-901 (2017) - LINKOptical Express 27(5), 7469–7484 (2019) - LINK & PDF

4. Optical modulating device having gate structure

S. Han, R. Sohkoyan, H. A. Atwater, G. Kafaie, R. Pala, Y.-J. Lu, H. W. Lee, Y.-W. Huang, K. Thyagarajan

US Patent, US 20170031183 A1 (February 2, 2017) - LINK & PDF

US Patent, US 10012851 B2 (July 3, 2018) - LINK & PDF

US Patent, US 120180292681 A1 (October 11, 2018) - LINK & PDF

US Patent, US 10520758 B2 (December 31, 2019) - LINK & PDF

Samsung Electronics Co Ltd & California Institute of Technology CalTech

Reference: Nano Letters 16(9), 5319–5325 (2016) - LINK & PDF

3. Optical modulating device having gate structure

S. Han, Y.-W. Huang, H. A. Atwater, H. W. Lee, R. Sohkoyan, G. Papadakis, K. Thyagarajan

US Patent, US 20160223723 A1 (August 4, 2016) - LINK & PDF

US Patent, US 9632216 B2 (April 25, 2017) - LINK & PDF

WIPO, WO 2016126896 A1 (August 11, 2016) - LINK & PDF

European Patent, EP 3254154 B1 (March 2, 2016) - LINK & PDF

South Korea Patent, KR 20160096527 A (October, 2016) - LINK & PDF

China Patent, CN 107209436 B (September 11, 2020) - LINK & PDF

Japan Patent, JP 6849597 B2 (March 24, 2021) - LINK & PDF

Samsung Electronics Co Ltd & California Institute of Technology CalTech

Reference: Nano Letters 16(9), 5319–5325 (2016) - LINK & PDF

2. 表面電漿全彩影像超穎全像片 Plasmonic multicolor meta-hologram

蔡定平, 黃耀緯, 陳威廷, 王智明 (D. P. Tsai, Y.-W. Huang, W. T. Chen, C.-M. Wang)

TW Patent, I538875 (June 21, 2016) - LINKLINKPDF

TW Patent, TW 201710177 (March 16, 2017) - LINKLINK & PDF

US Patent, US 20170068214 A1 (March 9, 2017) - LINK & PDF

中央研究院 (Academia Sinica)

Reference: Nano Letters 15(5), 3122–3127 (2015) - LINK & PDF

1. 可由偏振調控重建影像的多光學維度超穎全像片 A multi-dimensional meta-hologram with polarization-controlled images

蔡定平, 王智明, 陳威廷, 楊光宇, 黃耀緯 (D. P. Tsai, C.-M. Wang, W. T. Chen, K.-Y. Yang, Y.-W. Huang)

TW Patent, TW 201546580 (December 16, 2015) - LINKLINK & PDF

TW Patent, TW I514097 (December 21, 2015) - LINKPDF

國立台灣大學 (National Taiwan University)

Reference: Nano Letters 14(1), 225–230 (2014) - LINK & PDF

Theses

4. Metasurface resonant waveguide gratings using topology optimization 以拓撲優化實現超穎共振波導光柵

Lu-Yun Wang​ 王律勻, Master Thesis, October 2023

3. Inverse design enables functional metasurfaces 以反向設計實現功能性超穎介面

Po-Cheng Yang 楊博丞, Master Thesis, October 2023

2. Asymmetric Vortex Beam Generation from Dielectric Janus Metasurfaces 以介電質雅努斯超穎介面實現非對稱渦漩光

Jhih-Hao Huang 黃致豪, Master Thesis, October 2023

1. Ultra-compact Integration of Metasurface and PCSEL for Functional Light Generation 超微小整合超穎介面和面射型光子晶體雷射實現功能性光束

Chia-Hsun Chang 張家勳, Master Thesis, September 2023

Theses
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