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Author(s), “Title of Paper,” in Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XVI, edited by Din Ping Tsai, Takuo Tanaka, Proceedings of SPIE Vol. 10722 (SPIE, Bellingham, WA, 2018) Seven-digit Article CID Number.

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ISSN: 1996-756X (electronic)

ISBN: 9781510620155

ISBN: 9781510620162 (electronic)

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Authors

Numbers in the index correspond to the last two digits of the seven-digit citation identifier (CID) article numbering system used in Proceedings of SPIE. The first five digits reflect the volume number. Base 36 numbering is employed for the last two digits and indicates the order of articles within the volume. Numbers start with 00, 01, 02, 03, 04, 05, 06, 07, 08, 09, 0A, 0B…0Z, followed by 10-1Z, 20-2Z, etc.

Adachi, Kenji, 23

Alsheheri, Soad, 2Y

Andam, N., 0O

Argyropoulos, Christos, 1R

Bauman, Stephen J., 2R

Bernasconi, Gabriel D., 1U

Brückl, Hubert, 2O

Butet, Jérémy, 1U

Chang, Chih-Wei, 0E

Cheng, L.-J., 0J

Chu, Shi-Wei, 0E

Cong, Xuan, 1Z

Dadadzhanov, Daler R., 2E

Debu, Desalegn T., 2R

Deol, Rajinder Singh, 2N

Devaux, Eloïse, 0A

Dham, Jorawar Singh, 2L

Dheur, Marie-Christine, 0A

Dixon, K., 1P

Du, Wei, 24, 25

Fang, Xu, 16

Frame, James D., 16

Franco Rego, Davi, 31

French, David, 2R

Gautam, Lakshay, 2L

Gomes de Souza, I. L., 30

Goyal, Parul, 2M

Grayer, Justin, 2X

Green, Nicolas G., 16

Greffet, Jean-Jacques, 0A

Ha, Heonhak, 20

Haslinger, Michael, 2O

Hayasi, S., 0O

Hervieux, Paul-Antoine, 0B

Herzog, Joseph B., 2R

Hong, Youngsun, 2V

Huang, Yingxue, 1Z

Hugonin, Jean-Paul, 0A

Inouye, Y., 0O

Ishitobi, H., 0O

Jang, Min Seok, 20

Jiao, Kunpeng, 24, 25

Jiao, Lipeng, 24, 25

Jin, Boyuan, 1R

Kalra, Yogita, 2M

Kannegulla, A., 0J

Karabchevsky, Alina, 2E

Kazemi-Zanjani, N., 1P

Kherani, N. P., 1P

Kim, Hyungchan, 2V

Kim, Jaebum, 2V

Kim, JeongRok, 2B

Kim, Shinho, 20

Ko, Jeong Beom, 2V

Kong, Weijin, 24, 25

Kubo, Wakana, 16

Kumar, Ajeet, 2L

Lee, Po-Tsung, 0P

Li, Irene Ling, 1Z

Li, Pin-Yi, 0E

Liang, Huawei, 1Z

Lin, Chia-Yu, 0P

Lin, Pin-Tso, 0P

Liu, Lili, 24, 25

Liu, Y., 0J

Lu, Tsan-Wen, 0P

Machida, Keisuke, 23

Manfredi, Giovanni, 0B

Marquier, François, 0A

Martin, Olivier J. F., 1U

Matsuura, N., 1P

Menabde, Sergey G., 20

Messin, Gaétan, 0A

Mitteramskogler, Tina, 2O

Mohammadzadeh, A., 1P

Montazeri, A. O., 1P

Mühlberger, Michael, 2O

Nesterenko, D. V., 0O

Oh, Geum-Yoon, 2V

Okada, Mika, 23

Olorunsola, Oluwatobi, 2R

Ordouie, Ehsan, 2B

Paliwal, Ayush, 2L

Park, Choon Keun, 2V

Prinja, R., 1P

Prokopets, Vadym M., 34

Rahmouni, A., 0O

Refki, S., 0O

Rodriguez-Esquerre, Vitaly Felix, 30, 31

Ryskulov, Ruslan A., 34

Schotter, Jörg, 2O

Schrittwieser, Stefan, 2O

Sekkat, Z., 0O

Selvaganapathy, P., 1P

Shankar, Ravi, 2N

Shankhwar, Nishant, 2M

Sharma, Asmita, 2N

Shayegannia, M., 1P

Sheng, Yulin, 25

Shlesinger, Ilan, 0A

Shoshi, Astrit, 2O

Siahmakoun, Azad, 2B

Singh, Madhusudan, 2N

Su, Hong, 1Z Tanjia, Fatema, 0B

Tsai, Chia-Yang, 0P

Tsao, Yang, 0E

Vartanyan, Tigran A., 2E

Vest, Benjamin, 0A

Walia, Anmol, 2N

Wang, Mei, 24, 25

Wang, Y.-C., 0J

Wu, B., 0J

Wu, Di, 24, 25

Xia, Feng, 24, 25

Yablochkova, Kateryna S., 34

Yang, Young Jin, 2V

Yoo, Sung-Shik, 2X

Yun, Maojin, 24, 25

Zavodni, A., 1P

Zhang, Min, 1Z

Zhu, S., 1P

Conference Committee

Symposium Chairs

Symposium Co-chairs

Conference Chairs

Conference Program Committee

Session Chairs

Introduction

This proceedings volume contains the papers presented at the 2018 SPIE Optics + Photonics conference on Plasmonics: Design, Materials, Fabrication, Characterization, and Applications XVI held in San Diego, California, 19-23 August 2018. The aim of the conference was to bring together specialists from diverse research areas and to provide a forum for the exchange of information on the latest progress of the plasmonics.

The conference was divided into 18 sessions, covering a variety of topics related to the plasmonics. In the first session, presentations were related to novel materials for plasmonics, such as ultra-thin transition metal nitrides for tailorable plasmonic devices; metamaterial infrared absorber with nanofluidic channel for ultrasensitive molecular detection; tunable plasmon-induced resonance energy transfer and plasmon-exciton coupling in single plasmonic nanoparticles on two-dimensional transition metal dichalcogenides; plasmon-assisted cooperative energy transfer controls spontaneous emission rate beyond field enhancement limits; and plasmons at the interface for physics and medicine.

The second session was related to characterization for plasmonics, including the solar cell based on metamaterial perfect absorber; and novel nanospectroscopic technique through tip-enhanced Raman spectroscopy.

The third session dealt with plasmonic applications: revisiting quantum optics with single plasmons; quantum hydrodynamics for nanoplasmonics; and quantum effects in nanogap plasmonic systems.

The fourth session was quantum plasmonics, including plasmon-enhanced multi-functions; and the role of dielectric microlenses.

The fifth session was on plasmonic applications as well, such as microbubble nucleation and subsequent flow generation studied by thermoplasmonic effect; conversion and inversion of plasmonic angular momenta in nano-space; broadband enhancement of quantum dot emission for microLED using UV plasmonic nanoparticles; and plasmonic resonator devices for integrated application.

The sixth session’s topic was metasurface, including broadband achromatic and high efficient metadevices via aluminum integrated resonant unit of metasurfaces; broadband plasmonic detour phase meta-holograms with full parameter control of light; high efficiency full-color router based on GaN metalens; and plasmonic coupled modes in metal-insulator-metal structures for sensing application.

The seventh session was devoted to fundamental of plasmonics, including nanophotonic structures for highly efficient on-chip optical manipulation; observation of pure magnetism at optical frequencies in a plasmonic system; generation of convergent light spot by surface plasmon manipulated Smith-Purcell radiation on Yagi-Uda nanoantenna arrays; and avoided resonance crossing and asymmetric nearly perfect absorption in plasmonic nanodisks with near-field and far-field couplings.

The eighth session was related to nonlinear, including manifestations of photon acceleration in semiconductor metasurfaces; hybrid plasmonic-dielectric metamaterials for enhanced nonlinear response; and nano-optics of single plasmonic particle-on-film nanocavities.

The ninth session was also about plasmonic sensing: the enhancement of biomolecular detecting in Bloch surface wave sensor; and fluorescence of Pt nanoclusters for bio-imaging.

The tenth session was radiation engineering: exciton-plasmon interaction in two-dimensional semiconductors for refined light emission; a virus assembly experimental approach to the plasmonic Dicke effect; all-round fluorescence enhancements using Ag-Si hybrid stack nanoantennas; configurable strong coupling within plasmonic junctions; and deconvolving excitons and free carriers using plasmonic emission enhancement effect.

The eleventh session was active control. We had papers presented on ultra-low-loss polaritons in hexagonal boron nitride; active control of plasmonic enhanced light emission: tunable spontaneous emission and new plasmonic lasers; plasmonic vanadium dioxide microbolometers with wavelength and polarisation sensitivity; graphene-based plasmon modulator on silicon; and dynamic polarization control with optical metasurfaces.

The twelfth session was fundamental of plasmonics as well, which included excited-state and correlated light-matter interactions; a Van Hove singularity in the topology critical point of bilayer hyperbolic metamaterials; and towards the observation of exceptional points (EPs) in passive plasmonic nanostructures.

The thirteenth session was chiral plasmonics: nanoscale chiral valley-photon interface; peptide encoded gigantic chirality evolution in three-dimensional plasmonic helicoids; disordered photonic metasurfaces for complex light field control; and enhancing chiral fields with arrays of achiral particles.

The fourteenth session was plasmonic applications as well: thermal radiation studies of plasmonic materials and single antennas; additive nanomanufacturing of metallic nanostructures through a kick-and-place approach; and plasmonic angular momentum and its dynamical interactions with electrons.

The fifteenth session was also related to plasmonic applications, including nanoscale imaging of optical field by electron microscopy; super-resolution mapping of the local density of states with single-molecule and fluorescence lifetime imaging microscopy; and direct measurement of optical losses in plasmon-enhanced thin silicon films.

The sixteenth session was devoted to plasmonic sensing as well, such as tunable plasmonic Moiré chiral metamaterials: cost-effective fabrication; and ultrasensitive SERS using plasmonic width-graded nanogratings.

The seventeenth session was also focused on nonlinear. We had papers presented on collective nonlinear optical effects in plasmonic oligomers using cylindrical vector beams; nonlinear graphene metasurfaces with advanced electromagnetic functionalities; and opto-acoustic interactions in lossy metal-dielectric waveguides.

The eighteenth session was also related to plasmonic applications, including plasmonic approaches for visualizing and controlling intercalation-driven phase transformations; second harmonic generation dynamic in plasmonic nanoparticles; absorption enhancement of dielectric metasurfaces with the Kerker effect; and large-scale chiral nanostructures fabricated using high-throughput nanofabrication methods.

Din Ping Tsai Takuo Tanaka