Roadmap on Label-Free Super-Resolution Imaging

Vasily N. Astratov; Yair Ben Sahel; Yonina C. Eldar; Luzhe Huang; Aydogan Ozcan; Nikolay Zheludev; Junxiang Zhao; Zachary Burns; Zhaowei Liu; Evgenii Narimanov; Neha Goswami; Gabriel Popescu; Emanuel Pfitzner; Philipp Kukura; Yi Teng Hsiao; Chia Lung Hsieh; Brian Abbey; Alberto Diaspro; Aymeric LeGratiet; Paolo Bianchini; Natan T. Shaked; Bertrand Simon; Nicolas Verrier; Matthieu Debailleul; Olivier Haeberlé; Sheng Wang; Mengkun Liu; Yeran Bai; Ji Xin Cheng; Behjat S. Kariman; Katsumasa Fujita; Moshe Sinvani; Zeev Zalevsky; Xiangping Li; Guan Jie Huang; Shi Wei Chu; Omer Tzang; Dror Hershkovitz; Ori Cheshnovsky; Mikko J. Huttunen; Stefan G. Stanciu; Vera N. Smolyaninova; Igor I. Smolyaninov; Ulf Leonhardt; Sahar Sahebdivan; Zengbo Wang; Boris Luk'yanchuk; Limin Wu; Alexey V. Maslov; Boya Jin; Constantin R. Simovski; Stephane Perrin; Paul Montgomery; Sylvain Lecler

doi:10.1002/lpor.202200029

Roadmap on Label-Free Super-Resolution Imaging

Vasily N. Astratov, Yair Ben Sahel, Yonina C. Eldar, Luzhe Huang, Aydogan Ozcan, Nikolay Zheludev, Junxiang Zhao, Zachary Burns, Zhaowei Liu, Evgenii Narimanov, Neha Goswami, Gabriel Popescu, Emanuel Pfitzner, Philipp Kukura, Yi Teng Hsiao, Chia Lung Hsieh, Brian Abbey, Alberto Diaspro, Aymeric LeGratiet, Paolo BianchiniNatan T. Shaked, Bertrand Simon, Nicolas Verrier, Matthieu Debailleul, Olivier Haeberlé, Sheng Wang, Mengkun Liu, Yeran Bai, Ji Xin Cheng, Behjat S. Kariman, Katsumasa Fujita, Moshe Sinvani, Zeev Zalevsky, Xiangping Li, Guan Jie Huang, Shi Wei Chu, Omer Tzang, Dror Hershkovitz, Ori Cheshnovsky, Mikko J. Huttunen, Stefan G. Stanciu, Vera N. Smolyaninova, Igor I. Smolyaninov, Ulf Leonhardt, Sahar Sahebdivan, Zengbo Wang, Boris Luk'yanchuk, Limin Wu, Alexey V. Maslov, Boya Jin, Constantin R. Simovski, Stephane Perrin, Paul Montgomery, Sylvain Lecler

Fysiikka

Tutkimustuotos: Katsausartikkeli › vertaisarvioitu

38 Sitaatiot (Scopus)

6 Lataukset (Pure)

Abstrakti

Label-free super-resolution (LFSR) imaging relies on light-scattering processes in nanoscale objects without a need for fluorescent (FL) staining required in super-resolved FL microscopy. The objectives of this Roadmap are to present a comprehensive vision of the developments, the state-of-the-art in this field, and to discuss the resolution boundaries and hurdles that need to be overcome to break the classical diffraction limit of the label-free imaging. The scope of this Roadmap spans from the advanced interference detection techniques, where the diffraction-limited lateral resolution is combined with unsurpassed axial and temporal resolution, to techniques with true lateral super-resolution capability that are based on understanding resolution as an information science problem, on using novel structured illumination, near-field scanning, and nonlinear optics approaches, and on designing superlenses based on nanoplasmonics, metamaterials, transformation optics, and microsphere-assisted approaches. To this end, this Roadmap brings under the same umbrella researchers from the physics and biomedical optics communities in which such studies have often been developing separately. The ultimate intent of this paper is to create a vision for the current and future developments of LFSR imaging based on its physical mechanisms and to create a great opening for the series of articles in this field.

Alkuperäiskieli	Englanti
Artikkeli	2200029
Julkaisu	Laser and Photonics Reviews
Vuosikerta	17
Numero	12
Varhainen verkossa julkaisun päivämäärä	2023
DOI - pysyväislinkit	https://doi.org/10.1002/lpor.202200029
Tila	Julkaistu - 2023
OKM-julkaisutyyppi	A2 Katsausartikkeli tieteellisessä aikakauslehdessä

Julkaisufoorumi-taso

Jufo-taso 3

!!ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Condensed Matter Physics

Pääsy asiakirjaan

10.1002/lpor.202200029Lisenssi: CC BY

Laser Photonics Reviews - 2023 - Astratov - Roadmap on Label‐Free Super‐Resolution ImagingFinal published version, 25,4 MBLisenssi: CC BY

https://urn.fi/URN:NBN:fi:tuni-2023112010100Lisenssi: CC BY

Siteeraa tätä

Astratov, V. N., Sahel, Y. B., Eldar, Y. C., Huang, L., Ozcan, A., Zheludev, N., Zhao, J., Burns, Z., Liu, Z., Narimanov, E., Goswami, N., Popescu, G., Pfitzner, E., Kukura, P., Hsiao, Y. T., Hsieh, C. L., Abbey, B., Diaspro, A., LeGratiet, A., ... Lecler, S. (2023). Roadmap on Label-Free Super-Resolution Imaging. Laser and Photonics Reviews, 17(12), Artikkeli 2200029. https://doi.org/10.1002/lpor.202200029

@article{720b36b0aa8745f6a5945fdcbed2384f,

title = "Roadmap on Label-Free Super-Resolution Imaging",

abstract = "Label-free super-resolution (LFSR) imaging relies on light-scattering processes in nanoscale objects without a need for fluorescent (FL) staining required in super-resolved FL microscopy. The objectives of this Roadmap are to present a comprehensive vision of the developments, the state-of-the-art in this field, and to discuss the resolution boundaries and hurdles that need to be overcome to break the classical diffraction limit of the label-free imaging. The scope of this Roadmap spans from the advanced interference detection techniques, where the diffraction-limited lateral resolution is combined with unsurpassed axial and temporal resolution, to techniques with true lateral super-resolution capability that are based on understanding resolution as an information science problem, on using novel structured illumination, near-field scanning, and nonlinear optics approaches, and on designing superlenses based on nanoplasmonics, metamaterials, transformation optics, and microsphere-assisted approaches. To this end, this Roadmap brings under the same umbrella researchers from the physics and biomedical optics communities in which such studies have often been developing separately. The ultimate intent of this paper is to create a vision for the current and future developments of LFSR imaging based on its physical mechanisms and to create a great opening for the series of articles in this field.",

keywords = "biomedical imaging, diffraction limit, label-free imaging, near-field imaging, optical microscopy, structured illumination, super-resolution",

author = "Astratov, {Vasily N.} and Sahel, {Yair Ben} and Eldar, {Yonina C.} and Luzhe Huang and Aydogan Ozcan and Nikolay Zheludev and Junxiang Zhao and Zachary Burns and Zhaowei Liu and Evgenii Narimanov and Neha Goswami and Gabriel Popescu and Emanuel Pfitzner and Philipp Kukura and Hsiao, {Yi Teng} and Hsieh, {Chia Lung} and Brian Abbey and Alberto Diaspro and Aymeric LeGratiet and Paolo Bianchini and Shaked, {Natan T.} and Bertrand Simon and Nicolas Verrier and Matthieu Debailleul and Olivier Haeberl{\'e} and Sheng Wang and Mengkun Liu and Yeran Bai and Cheng, {Ji Xin} and Kariman, {Behjat S.} and Katsumasa Fujita and Moshe Sinvani and Zeev Zalevsky and Xiangping Li and Huang, {Guan Jie} and Chu, {Shi Wei} and Omer Tzang and Dror Hershkovitz and Ori Cheshnovsky and Huttunen, {Mikko J.} and Stanciu, {Stefan G.} and Smolyaninova, {Vera N.} and Smolyaninov, {Igor I.} and Ulf Leonhardt and Sahar Sahebdivan and Zengbo Wang and Boris Luk'yanchuk and Limin Wu and Maslov, {Alexey V.} and Boya Jin and Simovski, {Constantin R.} and Stephane Perrin and Paul Montgomery and Sylvain Lecler",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors. Laser & Photonics Reviews published by Wiley-VCH GmbH.",

year = "2023",

doi = "10.1002/lpor.202200029",

language = "English",

volume = "17",

journal = "Laser and Photonics Reviews",

issn = "1863-8880",

publisher = "Wiley-VCH Verlag",

number = "12",

}

Astratov, VN, Sahel, YB, Eldar, YC, Huang, L, Ozcan, A, Zheludev, N, Zhao, J, Burns, Z, Liu, Z, Narimanov, E, Goswami, N, Popescu, G, Pfitzner, E, Kukura, P, Hsiao, YT, Hsieh, CL, Abbey, B, Diaspro, A, LeGratiet, A, Bianchini, P, Shaked, NT, Simon, B, Verrier, N, Debailleul, M, Haeberlé, O, Wang, S, Liu, M, Bai, Y, Cheng, JX, Kariman, BS, Fujita, K, Sinvani, M, Zalevsky, Z, Li, X, Huang, GJ, Chu, SW, Tzang, O, Hershkovitz, D, Cheshnovsky, O, Huttunen, MJ, Stanciu, SG, Smolyaninova, VN, Smolyaninov, II, Leonhardt, U, Sahebdivan, S, Wang, Z, Luk'yanchuk, B, Wu, L, Maslov, AV, Jin, B, Simovski, CR, Perrin, S, Montgomery, P & Lecler, S 2023, 'Roadmap on Label-Free Super-Resolution Imaging', Laser and Photonics Reviews, Vuosikerta 17, Nro 12, 2200029. https://doi.org/10.1002/lpor.202200029

TY - JOUR

T1 - Roadmap on Label-Free Super-Resolution Imaging

AU - Astratov, Vasily N.

AU - Sahel, Yair Ben

AU - Eldar, Yonina C.

AU - Huang, Luzhe

AU - Ozcan, Aydogan

AU - Zheludev, Nikolay

AU - Zhao, Junxiang

AU - Burns, Zachary

AU - Liu, Zhaowei

AU - Narimanov, Evgenii

AU - Goswami, Neha

AU - Popescu, Gabriel

AU - Pfitzner, Emanuel

AU - Kukura, Philipp

AU - Hsiao, Yi Teng

AU - Hsieh, Chia Lung

AU - Abbey, Brian

AU - Diaspro, Alberto

AU - LeGratiet, Aymeric

AU - Bianchini, Paolo

AU - Shaked, Natan T.

AU - Simon, Bertrand

AU - Verrier, Nicolas

AU - Debailleul, Matthieu

AU - Haeberlé, Olivier

AU - Wang, Sheng

AU - Liu, Mengkun

AU - Bai, Yeran

AU - Cheng, Ji Xin

AU - Kariman, Behjat S.

AU - Fujita, Katsumasa

AU - Sinvani, Moshe

AU - Zalevsky, Zeev

AU - Li, Xiangping

AU - Huang, Guan Jie

AU - Chu, Shi Wei

AU - Tzang, Omer

AU - Hershkovitz, Dror

AU - Cheshnovsky, Ori

AU - Huttunen, Mikko J.

AU - Stanciu, Stefan G.

AU - Smolyaninova, Vera N.

AU - Smolyaninov, Igor I.

AU - Leonhardt, Ulf

AU - Sahebdivan, Sahar

AU - Wang, Zengbo

AU - Luk'yanchuk, Boris

AU - Wu, Limin

AU - Maslov, Alexey V.

AU - Jin, Boya

AU - Simovski, Constantin R.

AU - Perrin, Stephane

AU - Montgomery, Paul

AU - Lecler, Sylvain

PY - 2023

Y1 - 2023

N2 - Label-free super-resolution (LFSR) imaging relies on light-scattering processes in nanoscale objects without a need for fluorescent (FL) staining required in super-resolved FL microscopy. The objectives of this Roadmap are to present a comprehensive vision of the developments, the state-of-the-art in this field, and to discuss the resolution boundaries and hurdles that need to be overcome to break the classical diffraction limit of the label-free imaging. The scope of this Roadmap spans from the advanced interference detection techniques, where the diffraction-limited lateral resolution is combined with unsurpassed axial and temporal resolution, to techniques with true lateral super-resolution capability that are based on understanding resolution as an information science problem, on using novel structured illumination, near-field scanning, and nonlinear optics approaches, and on designing superlenses based on nanoplasmonics, metamaterials, transformation optics, and microsphere-assisted approaches. To this end, this Roadmap brings under the same umbrella researchers from the physics and biomedical optics communities in which such studies have often been developing separately. The ultimate intent of this paper is to create a vision for the current and future developments of LFSR imaging based on its physical mechanisms and to create a great opening for the series of articles in this field.

AB - Label-free super-resolution (LFSR) imaging relies on light-scattering processes in nanoscale objects without a need for fluorescent (FL) staining required in super-resolved FL microscopy. The objectives of this Roadmap are to present a comprehensive vision of the developments, the state-of-the-art in this field, and to discuss the resolution boundaries and hurdles that need to be overcome to break the classical diffraction limit of the label-free imaging. The scope of this Roadmap spans from the advanced interference detection techniques, where the diffraction-limited lateral resolution is combined with unsurpassed axial and temporal resolution, to techniques with true lateral super-resolution capability that are based on understanding resolution as an information science problem, on using novel structured illumination, near-field scanning, and nonlinear optics approaches, and on designing superlenses based on nanoplasmonics, metamaterials, transformation optics, and microsphere-assisted approaches. To this end, this Roadmap brings under the same umbrella researchers from the physics and biomedical optics communities in which such studies have often been developing separately. The ultimate intent of this paper is to create a vision for the current and future developments of LFSR imaging based on its physical mechanisms and to create a great opening for the series of articles in this field.

KW - biomedical imaging

KW - diffraction limit

KW - label-free imaging

KW - near-field imaging

KW - optical microscopy

KW - structured illumination

KW - super-resolution

U2 - 10.1002/lpor.202200029

DO - 10.1002/lpor.202200029

M3 - Review Article

AN - SCOPUS:85175186999

SN - 1863-8880

VL - 17

JO - Laser and Photonics Reviews

JF - Laser and Photonics Reviews

IS - 12

M1 - 2200029

ER -

Roadmap on Label-Free Super-Resolution Imaging

Abstrakti

Julkaisufoorumi-taso

!!ASJC Scopus subject areas

Pääsy asiakirjaan

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