Roadmap for Quantum Nanophotonics with Free Electrons

F. Javier García de Abajo; Albert Polman; Cruz I. Velasco; Mathieu Kociak; Luiz H.G. Tizei; Odile Stéphan; Sophie Meuret; Takumi Sannomiya; Keiichirou Akiba; Yves Auad; Armin Feist; Claus Ropers; Peter Baum; John H. Gaida; Murat Sivis; Hugo Lourenço-Martins; Luca Serafini; Johan Verbeeck; Andrea Konečná; Nahid Talebi; Beatrice Matilde Ferrari; Cameron J.R. Duncan; Maria Giulia Bravi; Irene Ostroman; Giovanni Maria Vanacore; Ethan Nussinson; Ron Ruimy; Yuval Adiv; Arthur Niedermayr; Ido Kaminer; Valerio Di Giulio; Ofer Kfir; Zhexin Zhao; Roy Shiloh; Yuya Morimoto; Martin Kozák; Peter Hommelhoff; Francesco Barantani; Fabrizio Carbone; Fatemeh Chahshouri; Wiebke Albrecht; Sergio Rey; Toon Coenen; Erik Kieft; Hoelen L. Lalandec Robert; Frank de Jong; Magdalena Solà-Garcia

doi:10.1021/acsphotonics.5c00585

Roadmap for Quantum Nanophotonics with Free Electrons

F. Javier García de Abajo^*
, Albert Polman^*
, Cruz I. Velasco
, Mathieu Kociak^*
, Luiz H.G. Tizei^*
, Odile Stéphan
, Sophie Meuret
, Takumi Sannomiya^*
, Keiichirou Akiba
, Yves Auad
, Armin Feist^*
, Claus Ropers^*
, Peter Baum^*
, John H. Gaida
, Murat Sivis
, Hugo Lourenço-Martins
, Luca Serafini
, Johan Verbeeck
, Andrea Konečná^*
, Nahid Talebi^*

Beatrice Matilde Ferrari, Cameron J.R. Duncan, Maria Giulia Bravi, Irene Ostroman, Giovanni Maria Vanacore^*, Ethan Nussinson, Ron Ruimy, Yuval Adiv, Arthur Niedermayr, Ido Kaminer^*, Valerio Di Giulio, Ofer Kfir, Zhexin Zhao, Roy Shiloh, Yuya Morimoto, Martin Kozák^*, Peter Hommelhoff^*, Francesco Barantani, Fabrizio Carbone^*, Fatemeh Chahshouri, Wiebke Albrecht^*, Sergio Rey, Toon Coenen^*, Erik Kieft, Hoelen L. Lalandec Robert^*, Frank de Jong, Magdalena Solà-Garcia

^*Corresponding author for this work

The Institute of Applied Physics

Research output: Contribution to journal › Review article › peer-review

5 Scopus citations

Abstract

Over the past century, continuous advancements in electron microscopy have enabled the synthesis, control, and characterization of high-quality free-electron beams. These probes carry an evanescent electromagnetic field that can drive localized excitations and provide high-resolution information on material structures and their optical responses, currently reaching the sub-Å and few-meV regime. Moreover, combining free electrons with pulsed light sources in ultrafast electron microscopy adds temporal resolution in the subfemtosecond range while offering enhanced control of the electron wave function. Beyond their exceptional capabilities for time-resolved spectromicroscopy, free electrons are emerging as powerful tools in quantum nanophotonics, on par with photons in their ability to carry and transfer quantum information, create entanglement within and with a specimen, and reveal previously inaccessible details on nanoscale quantum phenomena. This Roadmap outlines the current state of this rapidly evolving field, highlights key challenges and opportunities, and discusses future directions through a collection of topical sections prepared by leading experts.

Original language	English
Pages (from-to)	4760-4817
Number of pages	58
Journal	ACS Photonics
Volume	12
Issue number	9
DOIs	https://doi.org/10.1021/acsphotonics.5c00585
State	Published - 17 Sep 2025

Bibliographical note

Publisher Copyright:
© 2025 The Authors. Published by American Chemical Society

Keywords

electron microscopy
electron−light interactions
materials science
quantum physics
ultrafast phenomena

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10.1021/acsphotonics.5c00585

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García de Abajo, F. J., Polman, A., Velasco, C. I., Kociak, M., Tizei, L. H. G., Stéphan, O., Meuret, S., Sannomiya, T., Akiba, K., Auad, Y., Feist, A., Ropers, C., Baum, P., Gaida, J. H., Sivis, M., Lourenço-Martins, H., Serafini, L., Verbeeck, J., Konečná, A., ... Solà-Garcia, M. (2025). Roadmap for Quantum Nanophotonics with Free Electrons. ACS Photonics, 12(9), 4760-4817. https://doi.org/10.1021/acsphotonics.5c00585

@article{25d163adc9f34469b16228cd3a774fd0,

title = "Roadmap for Quantum Nanophotonics with Free Electrons",

abstract = "Over the past century, continuous advancements in electron microscopy have enabled the synthesis, control, and characterization of high-quality free-electron beams. These probes carry an evanescent electromagnetic field that can drive localized excitations and provide high-resolution information on material structures and their optical responses, currently reaching the sub-{\AA} and few-meV regime. Moreover, combining free electrons with pulsed light sources in ultrafast electron microscopy adds temporal resolution in the subfemtosecond range while offering enhanced control of the electron wave function. Beyond their exceptional capabilities for time-resolved spectromicroscopy, free electrons are emerging as powerful tools in quantum nanophotonics, on par with photons in their ability to carry and transfer quantum information, create entanglement within and with a specimen, and reveal previously inaccessible details on nanoscale quantum phenomena. This Roadmap outlines the current state of this rapidly evolving field, highlights key challenges and opportunities, and discusses future directions through a collection of topical sections prepared by leading experts.",

keywords = "electron microscopy, electron−light interactions, materials science, quantum physics, ultrafast phenomena",

author = "\{Garc{\'i}a de Abajo\}, \{F. Javier\} and Albert Polman and Velasco, \{Cruz I.\} and Mathieu Kociak and Tizei, \{Luiz H.G.\} and Odile St{\'e}phan and Sophie Meuret and Takumi Sannomiya and Keiichirou Akiba and Yves Auad and Armin Feist and Claus Ropers and Peter Baum and Gaida, \{John H.\} and Murat Sivis and Hugo Louren{\c c}o-Martins and Luca Serafini and Johan Verbeeck and Andrea Kone{\v c}n{\'a} and Nahid Talebi and Ferrari, \{Beatrice Matilde\} and Duncan, \{Cameron J.R.\} and Bravi, \{Maria Giulia\} and Irene Ostroman and Vanacore, \{Giovanni Maria\} and Ethan Nussinson and Ron Ruimy and Yuval Adiv and Arthur Niedermayr and Ido Kaminer and \{Di Giulio\}, Valerio and Ofer Kfir and Zhexin Zhao and Roy Shiloh and Yuya Morimoto and Martin Koz{\'a}k and Peter Hommelhoff and Francesco Barantani and Fabrizio Carbone and Fatemeh Chahshouri and Wiebke Albrecht and Sergio Rey and Toon Coenen and Erik Kieft and \{Lalandec Robert\}, \{Hoelen L.\} and \{de Jong\}, Frank and Magdalena Sol{\`a}-Garcia",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors. Published by American Chemical Society",

year = "2025",

month = sep,

day = "17",

doi = "10.1021/acsphotonics.5c00585",

language = "אנגלית",

volume = "12",

pages = "4760--4817",

journal = "ACS Photonics",

issn = "2330-4022",

publisher = "American Chemical Society",

number = "9",

}

García de Abajo, FJ, Polman, A, Velasco, CI, Kociak, M, Tizei, LHG, Stéphan, O, Meuret, S, Sannomiya, T, Akiba, K, Auad, Y, Feist, A, Ropers, C, Baum, P, Gaida, JH, Sivis, M, Lourenço-Martins, H, Serafini, L, Verbeeck, J, Konečná, A, Talebi, N, Ferrari, BM, Duncan, CJR, Bravi, MG, Ostroman, I, Vanacore, GM, Nussinson, E, Ruimy, R, Adiv, Y, Niedermayr, A, Kaminer, I, Di Giulio, V, Kfir, O, Zhao, Z, Shiloh, R, Morimoto, Y, Kozák, M, Hommelhoff, P, Barantani, F, Carbone, F, Chahshouri, F, Albrecht, W, Rey, S, Coenen, T, Kieft, E, Lalandec Robert, HL, de Jong, F & Solà-Garcia, M 2025, 'Roadmap for Quantum Nanophotonics with Free Electrons', ACS Photonics, vol. 12, no. 9, pp. 4760-4817. https://doi.org/10.1021/acsphotonics.5c00585

TY - JOUR

T1 - Roadmap for Quantum Nanophotonics with Free Electrons

AU - García de Abajo, F. Javier

AU - Polman, Albert

AU - Velasco, Cruz I.

AU - Kociak, Mathieu

AU - Tizei, Luiz H.G.

AU - Stéphan, Odile

AU - Meuret, Sophie

AU - Sannomiya, Takumi

AU - Akiba, Keiichirou

AU - Auad, Yves

AU - Feist, Armin

AU - Ropers, Claus

AU - Baum, Peter

AU - Gaida, John H.

AU - Sivis, Murat

AU - Lourenço-Martins, Hugo

AU - Serafini, Luca

AU - Verbeeck, Johan

AU - Konečná, Andrea

AU - Talebi, Nahid

AU - Ferrari, Beatrice Matilde

AU - Duncan, Cameron J.R.

AU - Bravi, Maria Giulia

AU - Ostroman, Irene

AU - Vanacore, Giovanni Maria

AU - Nussinson, Ethan

AU - Ruimy, Ron

AU - Adiv, Yuval

AU - Niedermayr, Arthur

AU - Kaminer, Ido

AU - Di Giulio, Valerio

AU - Kfir, Ofer

AU - Zhao, Zhexin

AU - Shiloh, Roy

AU - Morimoto, Yuya

AU - Kozák, Martin

AU - Hommelhoff, Peter

AU - Barantani, Francesco

AU - Carbone, Fabrizio

AU - Chahshouri, Fatemeh

AU - Albrecht, Wiebke

AU - Rey, Sergio

AU - Coenen, Toon

AU - Kieft, Erik

AU - Lalandec Robert, Hoelen L.

AU - de Jong, Frank

AU - Solà-Garcia, Magdalena

PY - 2025/9/17

Y1 - 2025/9/17

N2 - Over the past century, continuous advancements in electron microscopy have enabled the synthesis, control, and characterization of high-quality free-electron beams. These probes carry an evanescent electromagnetic field that can drive localized excitations and provide high-resolution information on material structures and their optical responses, currently reaching the sub-Å and few-meV regime. Moreover, combining free electrons with pulsed light sources in ultrafast electron microscopy adds temporal resolution in the subfemtosecond range while offering enhanced control of the electron wave function. Beyond their exceptional capabilities for time-resolved spectromicroscopy, free electrons are emerging as powerful tools in quantum nanophotonics, on par with photons in their ability to carry and transfer quantum information, create entanglement within and with a specimen, and reveal previously inaccessible details on nanoscale quantum phenomena. This Roadmap outlines the current state of this rapidly evolving field, highlights key challenges and opportunities, and discusses future directions through a collection of topical sections prepared by leading experts.

AB - Over the past century, continuous advancements in electron microscopy have enabled the synthesis, control, and characterization of high-quality free-electron beams. These probes carry an evanescent electromagnetic field that can drive localized excitations and provide high-resolution information on material structures and their optical responses, currently reaching the sub-Å and few-meV regime. Moreover, combining free electrons with pulsed light sources in ultrafast electron microscopy adds temporal resolution in the subfemtosecond range while offering enhanced control of the electron wave function. Beyond their exceptional capabilities for time-resolved spectromicroscopy, free electrons are emerging as powerful tools in quantum nanophotonics, on par with photons in their ability to carry and transfer quantum information, create entanglement within and with a specimen, and reveal previously inaccessible details on nanoscale quantum phenomena. This Roadmap outlines the current state of this rapidly evolving field, highlights key challenges and opportunities, and discusses future directions through a collection of topical sections prepared by leading experts.

KW - electron microscopy

KW - electron−light interactions

KW - materials science

KW - quantum physics

KW - ultrafast phenomena

UR - https://www.scopus.com/pages/publications/105016098831

U2 - 10.1021/acsphotonics.5c00585

DO - 10.1021/acsphotonics.5c00585

M3 - ???researchoutput.researchoutputtypes.contributiontojournal.systematicreview???

C2 - 40978571

AN - SCOPUS:105016098831

SN - 2330-4022

VL - 12

SP - 4760

EP - 4817

JO - ACS Photonics

JF - ACS Photonics

IS - 9

ER -

Roadmap for Quantum Nanophotonics with Free Electrons

Abstract

Bibliographical note

Keywords

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