Roadmap on Label-Free Super-resolution Imaging

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

School of Computer Science & Engineering

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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.

Original language	English
Article number	202200029
Journal	Laser & Photonics Reviews
Volume	17
Issue number	12
Early online date	30 Oct 2023
DOIs	https://doi.org/10.1002/lpor.202200029
Publication status	Published - Dec 2023

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Astratov, V., Sahel, Y., Eldar, Y., Huang, L., Ozcan, A., Wang, Z., Zheludev, N. I., 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., ... Lecler, S. (2023). Roadmap on Label-Free Super-resolution Imaging. Laser & Photonics Reviews, 17(12), Article 202200029. https://doi.org/10.1002/lpor.202200029

@article{3e6f1671ed5048af82df2e40c1bb28f6,

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.",

author = "Vasily Astratov and Yair Sahel and Yonina Eldar and Luzhe Huang and Aydogan Ozcan and Wang, \{Zengbo (James )\} and N.I. Zheludev and Junxiang Zhao and Zachary Burns and Zhaowei Liu and Evengii Narimanov and Neha Goswami and Gabriel Popescu and Emanuael Pfitzner and Philipp Kukura and Yi-Teng Hsiao and Chia-Lung Hsieh and Brian Abbey and Alberto Diaspro and Aymeric LeGratiet and Paulo Bianchini and Shaked, \{Natan T.\} and Bertrand Simon and Nicolas Verrier and Matthieu Debailleul and Olivier Haeberle and Sheng Wang and Mengkun Liu and Yeran Bai and Ji-Xin Cheng and Karim,an, \{Behjat S.\} and Katsumasa Fujita and Moshe Sinvani and Zeev Zalevsky and Xiangping Li and Guan-Ji Huang and Shi-Wei Chu and Omer Tzang and Smolyaninov, \{Igor I.\} and Ulf Leonhardt and Sahar Sahebdivan and Dror Hershkovitz and Ori Cheshnovsky and Huttunen, \{Mikko J.\} and Stanciu, \{Stefan G.\} and Smolyaninova, \{Vera N.\} and Wang, \{Zengbo (James )\} 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 = "Engineering and Physical Sciences Research Council UK. Grant Numbers: EP/N00762X/1, EP/M009122/1 National Institutes of Health. Grant Numbers: R01GM129709, R01CA238191 National Science Foundation. Grant Numbers: 0939511, 1450962, 1353368 PHOTOMASS. Grant Number: 819593 EPSRC Leadership Fellowship. Grant Number: EP/T03419X/1",

year = "2023",

month = dec,

doi = "10.1002/lpor.202200029",

language = "English",

volume = "17",

journal = "Laser \& Photonics Reviews",

issn = "1863-8899",

publisher = "Wiley",

number = "12",

}

Astratov, V, Sahel, Y, Eldar, Y, Huang, L, Ozcan, A, Wang, Z, Zheludev, NI, 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, Bianchini, P, Shaked, NT, Simon, B, Verrier, N, Debailleul, M, Haeberle, O, Wang, S, Liu, M, Bai, Y, Cheng, J-X, Karim,an, BS, Fujita, K, Sinvani, M, Zalevsky, Z, Li, X, Huang, G-J, Chu, S-W, Tzang, O, Smolyaninov, II, Leonhardt, U, Sahebdivan, S, Hershkovitz, D, Cheshnovsky, O, Huttunen, MJ, Stanciu, SG, Smolyaninova, VN, 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 & Photonics Reviews, vol. 17, no. 12, 202200029. https://doi.org/10.1002/lpor.202200029

TY - JOUR

T1 - Roadmap on Label-Free Super-resolution Imaging

AU - Astratov, Vasily

AU - Sahel, Yair

AU - Eldar, Yonina

AU - Huang, Luzhe

AU - Ozcan, Aydogan

AU - Wang, Zengbo (James )

AU - Zheludev, N.I.

AU - Zhao, Junxiang

AU - Burns, Zachary

AU - Liu, Zhaowei

AU - Narimanov, Evengii

AU - Goswami, Neha

AU - Popescu, Gabriel

AU - Pfitzner, Emanuael

AU - Kukura, Philipp

AU - Hsiao, Yi-Teng

AU - Hsieh, Chia-Lung

AU - Abbey, Brian

AU - Diaspro, Alberto

AU - LeGratiet, Aymeric

AU - Bianchini, Paulo

AU - Shaked, Natan T.

AU - Simon, Bertrand

AU - Verrier, Nicolas

AU - Debailleul, Matthieu

AU - Haeberle, Olivier

AU - Wang, Sheng

AU - Liu, Mengkun

AU - Bai, Yeran

AU - Cheng, Ji-Xin

AU - Karim,an, Behjat S.

AU - Fujita, Katsumasa

AU - Sinvani, Moshe

AU - Zalevsky, Zeev

AU - Li, Xiangping

AU - Huang, Guan-Ji

AU - Chu, Shi-Wei

AU - Tzang, Omer

AU - Smolyaninov, Igor I.

AU - Leonhardt, Ulf

AU - Sahebdivan, Sahar

AU - Hershkovitz, Dror

AU - Cheshnovsky, Ori

AU - Huttunen, Mikko J.

AU - Stanciu, Stefan G.

AU - Smolyaninova, Vera N.

AU - Wang, Zengbo (James )

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

N1 - Engineering and Physical Sciences Research Council UK. Grant Numbers: EP/N00762X/1, EP/M009122/1 National Institutes of Health. Grant Numbers: R01GM129709, R01CA238191 National Science Foundation. Grant Numbers: 0939511, 1450962, 1353368 PHOTOMASS. Grant Number: 819593 EPSRC Leadership Fellowship. Grant Number: EP/T03419X/1

PY - 2023/12

Y1 - 2023/12

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.

U2 - 10.1002/lpor.202200029

DO - 10.1002/lpor.202200029

M3 - Article

SN - 1863-8899

VL - 17

JO - Laser & Photonics Reviews

JF - Laser & Photonics Reviews

IS - 12

M1 - 202200029

ER -

Roadmap on Label-Free Super-resolution Imaging

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