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  3. Высокодобротные резонансны в фотонных структурах

Высокодобротные резонансны в фотонных структурах

Мы живем в мире резонансов. Окружающее нас пространство заполнено естественными и искусственными резонаторами, от музыкальных инструментов до сложных устройств. Структурные элементы фотонных структур поддерживают большое число электромагнитных мод, взаимодействие которых приводит к появлению ярких резонансных эффектов, которые активно изучаются на физико-техническом факультете.

Резонанс Фано возникает при слабом взаимодействии высокодобротного резонансного состояния с другими низкодобротными модами. Асимметричный профиль Фано характеризуется резким скачком интенсивности между максимумом и минимумом с нулевой интенсивностью спектра, что находит применение в сенсорике, а также для подавления рассеяния.

При определенных условиях добротность резонанса может устремиться к бесконечности, позволяя задерживать свет в так называемом связанном состоянии в континууме. Строго говоря, связанные истинные состояния в континууме могут существовать лишь в бесконечно протяженных объектах без поглощения, однако в реальных образцах наблюдаются в виде высокодобротных суперрезонансных мод, имеющих аналогичную природу. Изучение связанных состояний в континууме открывает широкие возможности для управления светом и усиления взаимодействия света с веществом для применения в лазерах и сенсорах, для генерации высших гармоник и др.

Сотрудники

Юрий
Кившар
Distinguished Professor
Михаил
Лимонов
Distinguished Professor
Андрей
Богданов
Assistant Professor
Алексей
Щербаков
Assistant Professor
Михаил
Рыбин
Assistant Professor
Зарина
Кондратенко
Lecturer
Алексей
Дмитриев
Postdoc
Кристина
Фризюк
4th year PhD student
Владимир
Игошин
Student
Даниил
Рябов
Student
Николай
Солодовченко
3rd year PhD student
Илья
Дерий
3rd year PhD student
Сергей
Гладышев
4th year PhD student
Павел
Тонкаев
4th year PhD student
Александра
Кутузова
2nd year PhD student
Сергей
Красиков
4th year PhD student
Екатерина
Маслова
4th year PhD student

Публикации

2022

36.
Cascades of Fano resonances in light scattering by dielectric particles
Nikolay Solodovchenko
Mikhail Sidorenko
Timur Seidov
Igor Popov
Elizaveta Nenasheva
Kirill Samusev
Mikhail Limonov
 
Materials Today
 , 2022
[DOI:
10.1016/j.mattod.2022.09.007
 ] [ IF:
26.943
 , SJR:
6.300
 ]
35.
Nonlinear optical heating of all-dielectric super-cavity: efficient light-to-heat conversion through giant thermorefractive bistability
Daniil Ryabov
Olesya Pashina
Georgiy Zograf
Sergey Makarov
Mihail Petrov
 
Nanophotonics
 , vol.
0
 , 2022
[DOI:
10.1515/nanoph-2022-0074
 ] [ IF:
7.923
 , SJR:
2.124
 ]
34.
Bound States in the Continuum in Compact Acoustic Resonators
Ilya Deriy
Ivan Toftul
Mihail Petrov
Andrey Bogdanov
 
Physical Review Letters
 , vol.
128
 , 2022
[DOI:
10.1103/physrevlett.128.084301
 ] [ IF:
9.185
 , SJR:
3.246
 , NI:
1
 ]

2021

33.
High-Q states in acoustic apple-shaped resonators
Vladimir Igoshin
Anastasia Nikitina
Maria Tsimoha
Ivan Toftul
Mihail Petrov
Kristina Frizyuk
Journal of Physics: Conference Series
 , vol.
2015
 , pp.
012040
 , 2021
[DOI:
10.1088/1742-6596/2015/1/012040
 ] [ SJR:
0.210
 ]
32.
Bound states in the continuum in periodic structures with structural disorder
Ekaterina Maslova
Mikhail Rybin
Andrey Bogdanov
Zarina Sadrieva
 
Nanophotonics
 , vol.
10
 , pp.
4313-4321
 , 2021
[DOI:
10.1515/nanoph-2021-0475
 ] [ IF:
7.923
 , SJR:
2.124
 ]
31.
Observation of Ultrafast Self-Action Effects in Quasi-BIC Resonant Metasurfaces
Ivan Sinev
Kirill Koshelev
Zhuojun Liu
Anton Rudenko
Konstantin Ladutenko
Alexey Shcherbakov
Zarina Sadrieva
Mikhail Baranov
Tatiana Itina
Jin Liu
Andrey Bogdanov
Yuri Kivshar
 
Nano Letters
 , 2021
[DOI:
10.1021/acs.nanolett.1c03257
 ] [ IF:
12.262
 , SJR:
3.761
 , NI:
0,65
 ]
30.
Bound states in the continuum in strong-coupling and weak-coupling regimes under the cylinder – ring transition
Nikolay Solodovchenko
Kirill Samusev
Daria Bochek
Mikhail Limonov
 
Nanophotonics
 , vol.
10
 , pp.
4347-4355
 , 2021
[DOI:
10.1515/nanoph-2021-0351
 ] [ IF:
7.923
 , SJR:
2.124
 ]
29.
From Fano to Quasi-BIC Resonances in Individual Dielectric Nanoantennas
Elizaveta Melik-Gaykazyan
Kirill Koshelev
Jae-Hyuck Choi
Sergey S. Kruk
Andrey Bogdanov
Hong-Gyu Park
Yuri Kivshar
 
Nano Letters
 , 2021
[DOI:
10.1021/acs.nanolett.0c04660
 ] [ IF:
12.262
 , SJR:
3.761
 , NI:
0,21
 ]

2020

28.
Supercavity modes in silicon-based metasurfaces
Aleksandra Kutuzova
Mikhail Rybin
AIP Conference Proceedings
 , vol.
2300
 , pp.
020074
 , 2020
[DOI:
10.1063/5.0031900
 ] [ SJR:
0.190
 ]
27.
Observation of Supercavity Modes in Subwavelength Dielectric Resonators
Mikhail Odit
Kirill Koshelev
Sergey Gladishev
Konstantin Ladutenko
Yuri Kivshar
Andrey Bogdanov
 
Advanced Materials
 , pp.
2003804
 , 2020
[DOI:
10.1002/adma.202003804
 ] [ IF:
30.849
 , SJR:
10.707
 , NI:
0,75
 ]
26.
Subwavelength dielectric resonators for nonlinear nanophotonics
Kirill Koshelev
Sergey Kruk
Elizaveta Melik-Gaykazyan
Jae-Hyuck Choi
Andrey Bogdanov
Hong-Gyu Park
Yuri Kivshar
 
Science
 , vol.
367
 , pp.
288-292
 , 2020
[DOI:
10.1126/science.aaz3985
 ] [ IF:
47.728
 , SJR:
12.556
 , NI:
0.29
 ]
25.
Engineering with Bound States in the Continuum
Kirill Koshelev
Andrey Bogdanov
Yuri Kivshar
Optics and Photonics News
 , vol.
31
 , pp.
38
 , 2020
[DOI:
10.1364/opn.31.1.000038
 ] [ IF:
2.034
 , SJR:
0.742
 ]

2019

24.
Photosensitive chalcogenide metasurfaces supporting bound states in the continuum
Elena Mikheeva
Kirill Koshelev
Duk-Yong Choi
Sergey Kruk
Julien Lumeau
Redha Abdeddaim
Ivan Voznyuk
Stefan Enoch
Yuri Kivshar
Optics Express
 , vol.
27
 , pp.
33847
 , 2019
[DOI:
10.1364/oe.27.033847
 ] [ IF:
3.669
 , SJR:
1.533
 ]
23.
Light trapping gets a boost
Kirill Koshelev
Yuri Kivshar
 
Nature
 , vol.
574
 , pp.
491-492
 , 2019
[DOI:
10.1038/d41586-019-03143-w
 ] [ IF:
42.779
 , SJR:
14.047
 , NI:
0.25
 ]
22.
High-harmonic generation at the nanoscale boosted by bound states in the continuum
Luca Carletti
Sergey S. Kruk
Andrey Bogdanov
Costantino De Angelis
Yuri Kivshar
Physical Review Research
 , vol.
1
 , pp.
023016
 , 2019
[DOI:
10.1103/physrevresearch.1.023016
 ]
21.
Multipolar origin of bound states in the continuum
Zarina Sadrieva
Kristina Frizyuk
Mihail Petrov
Yuri Kivshar
Andrey Bogdanov
Physical Review B
 , vol.
100
 , pp.
115303
 , 2019
[DOI:
10.1103/PhysRevB.100.115303
 ] [ IF:
3.575
 , SJR:
1.811
 ]
20.
Nonlinear Metasurfaces Governed by Bound States in the Continuum
Kirill Koshelev
Yutao Tang
Kingfai Li
Duk-Yong Choi
Guixin Li
Yuri Kivshar
ACS Photonics
 , vol.
6
 , pp.
1639-1644
 , 2019
[DOI:
10.1021/acsphotonics.9b00700
 ] [ IF:
6.864
 , SJR:
2.974
 ]
19.
Combining isolated scatterers into a dimer by strong optical coupling
Alexey Dmitriev
Mikhail Rybin
Physical Review A
 , vol.
99
 , pp.
063837
 , 2019
[DOI:
10.1103/PhysRevA.99.063837
 ] [ IF:
2.777
 , SJR:
1.416
 ]
18.
Experimental observation of a symmetry-protected bound state in the continuum in a chain of dielectric disks
Zarina Sadrieva
M. A. Belyakov
M. A. Balezin
Polina Kapitanova
E. A. Nenasheva
A. F. Sadreev
Andrey Bogdanov
Physical Review A
 , vol.
99
 , pp.
053804
 , 2019
[DOI:
10.1103/physreva.99.053804
 ] [ IF:
2.777
 , SJR:
1.416
 ]
17.
Nonradiating Photonics with Resonant Dielectric Nanostructures
Kirill Koshelev
Gael Favraud
Andrey Bogdanov
Yuri Kivshar
Andrea Fratalocchi
 
Nanophotonics
 , vol.
8
 , pp.
725
 , 2019
[DOI:
10.1515/nanoph-2019-0024
 ] [ IF:
7.491
 , SJR:
2.618
 ]
16.
Bound states in the continuum and Fano resonances in the strong mode coupling regime
Andrey Bogdanov
Kirill Koshelev
Polina Kapitanova
Mikhail Rybin
Sergey Gladishev
Zarina Sadrieva
Kirill Samusev
Yuri Kivshar
Mikhail Limonov
Advanced Photonics
 , vol.
1
 , pp.
16001
 , 2019
[DOI:
10.1117/1.AP.1.1.016001
 ]
15.
Enhanced Second Harmonic Generation with Structured Light in AlGaAs Nanoparticles Governed by Magnetic Response
Elizaveta V. Melik-Gaykazyan
Kirill Koshelev
Jae-Hyuck Choi
Sergey S. Kruk
Hong-Gyu Park
Andrey A. Fedyanin
Yuri Kivshar
JETP Letters
 , vol.
109
 , pp.
131
 , 2019
[DOI:
10.1134/S0021364019020036
 ] [ IF:
1.399
 , SJR:
0.583
 ]
14.
Meta-optics and bound states in the continuum
Kirill Koshelev
Andrey Bogdanov
Yuri Kivshar
 
Science Bulletin
 , vol.
64
 , pp.
836
 , 2019
[DOI:
10.1016/j.scib.2018.12.003
 ] [ IF:
9.511
 , SJR:
1.517
 ]

2018

13.
Asymmetric metasurfaces with high-Q resonances governed by bound states in the continuum
Kirill Koshelev
Sergey Lepeshov
Mingkai Liu
Andrey Bogdanov
Yuri Kivshar
 
Physical Review Letters
 , vol.
121
 , pp.
193903
 , 2018
[DOI:
10.1103/PhysRevLett.121.193903
 ] [ IF:
9.227
 , SJR:
3.571
 ]
12.
Strong coupling between excitons in transition metal dichalcogenides and optical bound states in the continuum
Kirill Koshelev
S.K. Sychev
Zarina Sadrieva
Andrey Bogdanov
Ivan Iorsh
Physical Review B
 , vol.
98
 , pp.
161113(R)
 , 2018
[DOI:
10.1103/PhysRevB.98.161113
 ] [ IF:
3.736
 , SJR:
1.502
 ]
11.
Nonlinear bound states in the continuum of a one-dimensional photonic crystal slab
Sergei Krasikov
Andrey Bogdanov
Ivan Iorsh
Physical Review B
 , vol.
97
 , pp.
224309
 , 2018
[DOI:
10.1103/PhysRevB.97.224309
 ] [ IF:
3.736
 , SJR:
1.502
 ]
10.
Giant nonlinear response at the nanoscale driven by bound states in the continuum
Luca Carletti
Kirill Koshelev
Costantino De Angelis
Yuri Kivshar
 
Physical Review Letters
 , vol.
121
 , pp.
33903
 , 2018
[DOI:
https://doi.org/10.1103/PhysRevLett.121.033903
 ] [ IF:
9.227
 , SJR:
3.571
 ]
9.
Nonlinear wavefront control with all-dielectric metasurfaces
Lei Wang
Sergey S. Kruk
Kirill Koshelev
Ivan I. Kravchenko
Barry Luther-Davies
Yuri Kivshar
 
Nano Letters
 , vol.
18
 , pp.
3978–3984
 , 2018
[DOI:
10.1021/acs.nanolett.8b01460
 ] [ IF:
12.279
 , SJR:
6.211
 ]

2017

8.
Fano resonances in photonics
Mikhail Limonov
Mikhail Rybin
Alexander Poddubny
Yuri Kivshar
 
Nature Photonics
 , vol.
11
 , pp.
543–554
 , 2017
[DOI:
doi:10.1038/nphoton.2017.142
 ] [ IF:
32.521
 , SJR:
16.462
 ]
7.
Transition from optical bound states in the continuum to leaky resonances: role of substrate and roughness
Zarina Sadrieva
Ivan Sinev
Kirill Koshelev
Anton Samusev
Ivan Iorsh
Osamu Takayama
Radu Malureanu
Andrey Bogdanov
Andrei Lavrinenko
ACS Photonics
 , vol.
4
 , pp.
723
 , 2017
[DOI:
10.1021/acsphotonics.6b00860
 ] [ IF:
6.880
 , SJR:
3.376
 ]
6.
High-Q supercavity modes in subwavelength dielectric resonators
Mikhail Rybin
Kirill Koshelev
Zarina Sadrieva
Kirill Samusev
Andrey Bogdanov
Mikhail Limonov
Yuri Kivshar
 
Physical Review Letters
 , vol.
119
 , pp.
243901
 , 2017
[DOI:
10.1103/PhysRevLett.119.243901
 ] [ IF:
8.839
 , SJR:
3.622
 ]
5.
Switchable invisibility of dielectric resonators
Mikhail Rybin
Kirill Samusev
Polina Kapitanova
Dmitry Filonov
Pavel Belov
Yuri Kivshar
Mikhail Limonov
Physical Review B
 , vol.
95
 , pp.
165119
 , 2017
[DOI:
10.1103/PhysRevB.95.165119
 ] [ IF:
3.813
 , SJR:
2.339
 ]

2016

4.
Purcell effect and Lamb shift as interference phenomena
Mikhail Rybin
S.F. Mingaleev
Mikhail Limonov
Yuri Kivshar
Scientific Reports
 , vol.
6
 , pp.
20599
 , 2016
[DOI:
10.1038/srep20599
 ] [ IF:
4.259
 , SJR:
1.692
 ]

2015

3.
Switching from Visibility to Invisibility via Fano Resonances: Theory and Experiment
Mikhail Rybin
Dmitry Filonov
Pavel Belov
Yuri Kivshar
Mikhail Limonov
Scientific Reports
 , vol.
5
 , pp.
8774
 , 2015
[DOI:
10.1038/srep08774
 ] [ IF:
5.228
 , SJR:
2.034
 ]

2013

2.
Mie scattering as a cascade of Fano resonances
Mikhail Rybin
Kirill Samusev
Ivan Sinev
George Semouchkin
Elena Semouchkina
Yuri Kivshar
Mikhail Limonov
Optics Express
 , vol.
21
 , pp.
30107-30113
 , 2013
[DOI:
10.1364/OE.21.030107
 ] [ IF:
3.525
 , SJR:
2.337
 ]
1.
Fano resonances in antennas: General control over radiation patterns
Mikhail Rybin
Polina Kapitanova
Dmitry Filonov
Alexey Slobozhanyuk
Pavel Belov
Yuri Kivshar
Mikhail Limonov
Physical Review B
 , vol.
88
 , pp.
205106 (1-8)
 , 2013
[DOI:
10.1103/PhysRevB.88.205106
 ] [ IF:
3.664
 ]