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27. "In-plane exciton polaritons versus plasmon polaritons: Nonlocal corrections, confinement, and loss", 

        Y. Gershuni and I. Epstein,

        Phys. Rev. B 109, L121408 (2024).


26. "Extending the Propagation Length of Graphene Plasmons via Nonlinear Frequency Conversion", 

        E. Landa*, L. Leiderman*, Y. Mazor, and I. Epstein,

        App. Phys. Lett. 124, 083101 (2024).



25. "Valley-polarized Hyperbolic Exciton Polaritons in Multilayer 2D Semiconductors at Visible Frequencies",

T. Eini, T. Asherov, Y. Mazor, and I. Epstein,

Phys. Rev. B 106, L201405 (2022).

24.  "Absorption and Optical Selection Rules of Tunable Excitons in Biased Bilayer Graphene",

J. C. G. HenriquesI. EpsteinN. M. R. Peres,

Phys. Rev. B 105, 045411 (2022).


23.  "Quantum Surface-Response of Metals Revealed by Acoustic Graphene Plasmons",

P.A.D Goncalves, T. Christensen, N.M.R. Peres, A.P. Jauho, I. Epstein, F.H.L. Koppens, M. Soljacic, and

N.A. Mortensen,

Nature Comm.  12, 3271 (2021).

22.   "Quantum Nanophotonics in Two-Dimensional Materials",

A. Reserbat-Plantey, I. Epstein, I. Torre, A. Costa, P.A.D Gonçalves, A. Mortensen, M. Polini, J. Song,

N.M.R Peres, F.H.L. Koppens,

ACS Photonics 8,  85–101 (2021).


21.  "Nanometer-Scale Cavities for Mid-infrared Light Based on Graphene Plasmons",

I. Epstein  and F. H. L. Koppens

Optics and Photonics News 31, 40 (2020). (OPN’s Year in Optics 2020).

20.  "Understanding the Electromagnetic Response of graphene/metallic Nanostructures Hybrids of

         Different Dimensionality",

T. G. Rappoport*, I. Epstein*, F. H. L. Koppens, N. M. R. Peres

ACS photonics 7, 2302–2308 (2020). – *equal contribution.

19.  "Far-field Excitation of Single Graphene Plasmon Cavities with Ultra-compressed Mode Volumes",

I. Epstein, D. Alcaraz, Z. Huang, J.P. Hugonin, V. Pusapati, A. Kumar, T. Khodkov, X. Deputy,

T. Rappoport, J.-Y. Hong N. M. R. Peres, J. Kong, D. R. Smith, and F.H.L. Koppens,

Science 368, 1219-1223 (2020).

18.  "Highly Confined In-plane Propagating Exciton-Polaritons on Monolayer Semiconductors",

I. Epstein, A. J. Chaves, D. A. Rhodes, B. Frank, K. Watanabe, T. Taniguchi, H. Giessen, J. C. Hone,

N. M. R. Peres, F.H.L. Koppens

2D Materials 7, 035031 (2020).

17.  "Near-unity Light Absorption in a Monolayer WS2 Van der Waals Heterostructure Cavity",

I. Epstein*, B. Terres*, A. J. Chaves, V. Pusapati, D. A. Rhodes, B. Frank, V. Zimmermann, Y. Qin,

K. Watanabe, T. Taniguchi, H. Giessen, S. Tongay, J. C. Hone, N. M. R. Peres, F.H.L. Koppens

Nano letters 20 (5) , 3545-3552 (2020). – *equal contribution.


16.  "Optomechanical Measurement of Thermal Transport in Two-dimensional MoSe2 Lattices",

N. Morell, S. Tepsic, A. Reserbat-Plantey, A. Cepellotti, M. Manca, I. Epstein, A. Isacsson,

X. Marie, F. Mauri, and A. Bachtold,

Nano letters 19 (5), 3143–3150 (2019).


15.  "Probing the Ultimate Plasmon Confinement Limits with a Van der Waals heterostructure",
       D. A. Iranzo*, S. Nanot*, E. J. C. Dias, I. Epstein, C. Peng, D. K. Efetov, M. B. Lundeberg, R. Parret,

       J. Osmond, J.-Y. Hong, J. Kong, D. R. Englund, N. M. R. Peres, and F. H.L. Koppens,

       Science 360, 291-295(2018). – *equal contribution.

14.  "Observation of Linear Plasmonic Breathers and Adiabatic Elimination in a Plasmonic Multi-level       

        Coupled System",
        I. Epstein*, H. Suchowski*, D. Weisman*, R. Remez, and A. Arie,

        Opt. Exp 26, 1433-1442 (2018). – *equal contribution.


13.  "Wavefront Shaping of Plasmonic Beams by Selective Coupling",

Y. Tsur, I. Epstein, R. Remez, and A. Arie,

ACS Photonics 4, 1339-1343(2017).


12.   "Surface-plasmon Wavefront and Spectral Shaping by Near-field Holography",

I. Epstein, Y. Tsur, and A. Arie,

Laser & Photonics Reviews 10, 360–381 (2016).

11.  "Generation of Intensity Controlled Two-dimensional Shape Preserving Beams in Plasmonic                     Lossy Media",

I. Epstein, R. Remez, Y. Tsur, and A.Arie,

Optica 3, 15-19 (2016).


10.  "Arbitrary Holographic Spectral Shaping of Plasmonic Broadband Excitations",

Y. Tsur, I. Epstein and A. Arie,

Opt. Lett. 40, 1615-1618 (2015).

9.    "Polarization Controlled Coupling and Shaping of Surface Plasmon Polaritons by Optical                          Nanoantennas",

O. Avayu, I. Epstein, E. Eizner and T.Ellenbogen,

Opt. Lett. 40, 1520-1523 (2015).

8.    "Efficient Excitation and Control of Arbitrary Surface Plasmon Polariton Beams Using One-dimensional          Metallic gratings",

D. Bar-Lev, A. Arie, J. Scheuer and I. Epstein,

JOSA B 32, 923-932 (2015).


7.    "Rapidly accelerating Mathieu and Weber surface plasmon beams",

A. Libster-Hershko*, I. Epstein* and A. Arie,

Phys. Rev. Lett. 113, 123902 (2014). – *equal contribution.

6.    "Shaping Plasmonic Light Beams with Near-field Plasmonic Holograms",

I. Epstein, Y. Lilach, and A. Arie,

JOSA B 31, 1642–1647 (2014).

5.   "Dynamic Generation of Plasmonic Bottle-Beams with Controlled Shape",

       I. Epstein and A. Arie,

       Opt. Lett. 39, 3165-3168 (2014).

4.    "Arbitrary Bending Plasmonic Light Waves",

I. Epstein and A. Arie,

Phys. Rev. Lett. 112, 023903 (2014).


3.    "Plasmon Enhanced Bragg diffraction",

I. Epstein, I. Dolev, D. Bar-Lev,  and A. Arie,

Phys. Rev. B 86, 205122 (2012).

2.    "Surface plasmons holographic beam shaping",

I. Dolev, I. Epstein, and A. Arie,

Phys. Rev. Lett. 109, 203903 (2012).


1.    "Measurements of the Einstein relation in doped & undoped molecular thin films",

O. Tal, I. Epstein, O. Snir, Y. Roichman, Y. Ganot, C. K. Chan, A. Khan, N. Tessler, Y. Rosenwaks,

Phys. Rev. B 77, 201201 (2008).

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