^{†} Equal contribution
2020  
90.  C. Mechel, Y. Kurman, A. Karnieli, N. Rivera, A. Arie and I. Kaminer, Quantum correlations in electron microscopy, Accepted to Optica 
89.  O. Reinhardt^{†}, C. Mechel^{†}, M. H. Lynch, I. Kaminer, FreeElectron Qubits, Accepted to Annalen der Physik 
88. 
J. Lim, Y. Si. Ang, F. J. García de Abajo, I. Kaminer, L. K. Ang, and L. J. Wong, Efficient generation of extreme terahertz harmonics in threedimensional Dirac semimetals, Phys. Rev. Research 2, 043252 (2020)

87. 
A. Gorlach, O. Neufeld, N. Rivera, O. Cohen, I. Kaminer, On the QuantumOptical Nature of High Harmonic Generation, Nature Commun. 11, 4598 (2020)

86. 
M. Shentcis, A. K. Budniak, X. Shi, R. Dahan, Y. Kurman, M. Kalina, H. Herzig Sheinfux, M. Blei, M. K. Svendsen, Y. Amouyal, F. Koppens, S. Tongay, K. S. Thygesen, E. Lifshitz, F. J. García de Abajo, L. J. Wong, and I. Kaminer, Tunable freeelectron Xray radiation from van der Waals materials, Nature Photonics 14, 686–692 (2020) (Supplementary materials) § Selected for News & Views in Nature Photonics. Highlighted on the Phys.Org.

85.  O. Reinhardt and I. Kaminer, Theory of Shaping Electron Wavepackets with Light, ACS Photonics 10, 2859–2870 (2020) 
84.  L.J. Wong D. N. Christodoulides I. Kaminer, The Complex Charge Paradigm: A New Approach for Designing Electromagnetic Wavepackets, Adv. Sci. 1903377 (2020) 
83.  R. Dahan†, S. Nehemia†, M. Shentcis, O. Reinhardt, Y. Adiv, X. Shi, O. Be’er, M. H. Lynch, Y. Kurman, K. Wang and I. Kaminer, Resonant phasematching between a light wave and a freeelectron wavefunction, Nature Physics 16, 11231131 (2020) (Supplementary materials, videos) § Highlighted on the Phys.Org. 
82.  Y. Kurman, A. Shultzman, O. Segal, A. Pick, and I. Kaminer, Photoniccrystal scintillators: molding the flow of light to enhance xray and gammaray detection, Phys. Rev. Lett. 125, 040801 (2020) (Supplementary materials ) § Physics Today 
81.  N. Rivera and I. Kaminer, Light–matter interactions with photonic quasiparticles, Nature Reviews Physics 2, 538–561 (2020) (Review) (Supplementary materials) § Selected as the journal cover of Nature Reviews Physics. § Partially based on Ido Kaminer’s course on macroscopic quantum electrodynamics (MQED) 
80.  F. J. García de Abajo, R. Javier Hernández, I. Kaminer, A. Meyerhans, J. RosellLlompart, and T. SanchezElsner, Back to Normal: An Old Physics Route to Reduce SARSCoV2 Transmission in Indoor Spaces, ACS Nano 14 (7), 77047713 (2020) (perspective) 
79.  A. Gorlach, N. Rivera, and I. Kaminer, Making Materials Mimic Each Other, Physics 13, 75 (2020) (Viewpoint) 
78.  S. Fisher, C. RoquesCarmes, N. Rivera, L. J. Wong, I. Kaminer, M. Soljačić, Monochromatic Xray source based on scattering from a magnetic nanoundulator, ACS Photonics 7, 1096 (2020) 
77. 
K. Wang, R. Dahan, M. Shentcis, Y. Kauffmann, A. Ben Hayun, O. Reinhardt, S. Tsesses, I. Kaminer, Coherent Interaction between Free Electrons and Cavity Photons, Nature 582, 50 (2020) (Supplementary materials)
§ Selected for Research Highlights in Nature Reviews Physics and featured in phys.org and in various Israeli media outlets

76. 
Y. Kurman, and I. Kaminer, Tunable Bandgap Renormalization by Nonlocal UltraStrong Coupling in Nanophotonics, Nature Physics 16, 868–874 (2020)
(Supplementary materials) 
2019


75. 
J. Sloan, N. Rivera, J. D. Joannopoulos, I. Kaminer, and M. Soljačić, Controlling Spins with Surface Magnon Polaritons, Phys. Rev. B 100, 235453 (2019)

74.  A. Pizzi, G. Rosolen, L. J. Wong, R. Ischebeck, M. Soljačić, T. Feurer, and I. Kaminer, Graphene Metamaterials for Intense, Tunable, and Compact Extreme Ultraviolet and XRay Sources, Adv. Sci. 7, 1901609 (2019) (Supplementary materials) 
73.  N. Rivera, L. J. Wong, J. D. Joannopoulos, M. Soljačić & I. Kaminer, Light emission based on nanophotonic vacuum forces, Nature Physics 15,1284–1289 (2019) (Supplementary materials) § Highlighted in Physicsworld 
72.  M. H. Lynch, E. Cohen, Y. Hadad, and I. Kaminer, AcceleratedCherenkov radiation and signatures of radiation reaction, New J. Phys. 21, 083038 (2019) 
71.  R. Dangovski, N. Rivera, M. Soljačić, and I. Kaminer, Shaping longlived electron wavepackets for customizable optical spectra, Optica 6, 10891097 (2019) 
70.  R. Remez^{†}, A. Karnieli^{†}, S. TrajtenbergMills, N. Shapira, I. Kaminer, Yossi Lereah, and A. Ariel, Observing the quantum wave nature of free electrons through spontaneous emission, Phys. Rev. Lett. 123, 060401 (2019) (Supplementary materials) 
69.  G. Wang, K. Wang, N. McEvoy, Z. Bai, C. P. Cullen, C.N. Murphy, J. B. McManus, J. J. Magan, C. Smith, G. S. Duesberg, I. Kaminer, J. Wang and W. J. Blau, Ultrafast Carrier Dynamics and Bandgap Renormalization in Layered PtSe2, Small 1902728 (2019) 
68. 
C. RoquesCarmes†, Steven E. Kooi†, Y. Yang, A. Massuda, P. Keathley, A. Zaidi, Y. Yang, J. D. Joannopoulos, K. Berggren, I. Kaminer and M. Soljačić, Towards integrated tunable allsilicon freeelectron light sources, Nature Commun. 10, 3176 (2019) (Supplementary materials)

67. 
G. M. Vanacore†, G. Berruto†, I. Madan, E. Pomarico, P. Biagioni, R. J. Lamb, D. McGrouther, O. Reinhardt, I. Kaminer, B. Barwick, H. Larocque, V. Grillo, E. Karimi, F. J. Garcia de Abajo and F. Carbone, Ultrafast Generation and Control of an Electron Vortex Beam via Chiral Plasmonic Near Fields, Nature Materials 18, 573 (2019) § Selected for News & Views in Nature Materials.

66. 
C. Qian, X. Lin, Y. Yang, X. Xiong, H. Wang, E. Li, I. Kaminer, B. Zhang and H. Chen, Experimental Observation of Superscattering, Phys. Rev. Lett. 122,63901 (2019)
§ This article was selected for Featured in Physics and Editors’ Suggestion at PRL, and for Viewpoint in Physics A Metamaterial for Superscattering Light.

65. 
N. Rivera, L. J. Wong, M. Soljačić, and I. Kaminer, Ultrafast Multiharmonic Plasmon Generation by Optically Dressed Electrons, Phys. Rev. Lett. 122, 53901 (2019) (Supplementary materials)

2018  
64. 
C. RoquesCarmes, N. Rivera, J. D. Joannopoulos, M. Soljačić, and I. Kaminer, Nonperturbative Quantum Electrodynamics in the Cherenkov Effect, Phys. Rev. X 8, 041013 (2018)

63.  F. Machado, N. Rivera, H. Buljan, M. Soljačić, and I. Kaminer, Shaping Polaritons to Reshape Selection Rules, ACS Photonics 5 (8), 3064–3072 (2018) (Supplementary materials) 
62.  A. Massuda, C. RoquesCarmes, Y. Yang, S. E. Kooi, Y. Yang, C. Murdia, K. K. Berggren, I. Kaminer, M. Soljačić, SmithPurcell radiation from lowenergy electrons, ACS Photonics 5 (9), 3513–3518 (2018) (Supplementary materials) 
61.  W. Cai†, O. Reinhardt†, I. Kaminer, and F. J. Garcia de Abajo, Efficient orbital angular momentum transfer between plasmons and free electrons, Phys. Rev. B 98, 045424 (2018) 
60.  G. Rosolen, L. J. Wong, N. Rivera, B. Maes, M. Soljačić and I. Kaminer, Versatile metasurfacebased free electron multiharmonic light source, Light Sci. Appl. 7, 64 (2018) (Supplementary materials) 
59.  X. Shi†, X. Lin†, I. Kaminer, F. Gao, Z. Yang, J. D. Joannopoulos, M. Soljačić, and B. Zhang, Superlight Inverse Doppler Effect, Nature Physics 14, 1001–1005 (2018) § Selected as the editors’ favourite paper in the area of optics, from all papers published between 20052020 in Nature Physics 
58.  Y. Yang, A. Massuda, C. RoquesCarmes, S. E. Kooi, T. Christensen, S. G. Johnson, J. D. Joannopoulos, O. D. Miller, I. Kaminer, M. Soljačić, Maximal Photon Emission and Energy Loss from Free Electrons, Nature Physics 14, 894–899 (2018) (Supplementary materials) 
57.  G. M. Vanacore, I. Madan, G. Berruto, K. Wang, E. Pomarico, R. J. Lamb, D. McGrouther, I. Kaminer, B. Barwick, F. Javier Garcia de Abajo, F. Carbone, Attosecond coherent control of freeelectron wave functions using semiinfinite light fields, Nature Commun. 9, 2694 (2018) § Highlighted on the Phys.Org. 
56.  X. Lin, S. Easo, Y. Shen, H. Chen, B. Zhang, J. D. Joannopoulos, M. Soljačić, and I. Kaminer, Controlling Cherenkov angles with resonance transition radiation, Nature Physics 14, 816–821 (2018) (Supplementary materials) § Selected for Research Highlights in Nature Photonics. 
55. 
Y. Kurman, N. Rivera, T. Christensen, S. Tsesses, M. Orenstein, M. Soljačić, J. D. Joannopoulos and I. Kaminer, Control of semiconductor emitter frequency by increasing polariton momenta, Nature Photonics 12, 423–429 (2018) (Supplementary materials)

54.  J. J. López, A. Ambrosio, S. Dai, C. Huynh, D. C. Bell, X. Lin, N. Rivera, S. Huang, Q. Ma, S. Eyhusen, I. Kaminer, K. Watanabe, T. Taniguchi, J. Kong, D. N. Basov, P. JarilloHerrero, M. Soljačić, Characterization of sub40 nm hBN nanostructures patterned via highresolution ion beam, Small 14, 1800072 (2018) 
53.  C. Qian, X. Lin, Y. Yang, F. Gao, Y. Shen, J. Lopez, I. Kaminer, B. Zhang, E. Li, M. Soljačić, and H. Chen, Multifrequency superscattering from subwavelength hyperbolic structures, ACS Photonics 5, 1506–1511 (2018) (Supplementary materials) 
52.  E. Pomarico, I. Madan, G. Berruto, G. M. Vanacore, K. Wang, I. Kaminer, F. J. García de Abajo, and F. Carbone, meV resolution in laserassisted energyfiltered transmission electron microscopy, ACS Photonics 5, 759–764 (2018) 
51.  H. Larocque, I. Kaminer, V. Grillo, R. W Boyd, E. Karimi, Twisting neutrons may reveal their internal structure, Nature Physics 14, 12 (2018) (Correspondence) 
50.  J. Sloan, N. Rivera, M. Soljačić, and I. Kaminer, Tunable UVemitters through Graphene Plasmonics, Nano Lett. 18, 308313 (2018) 
2017  
49.  H. Larocque, I. Kaminer, V. Grillo, G. Leuchs, M. J. Padgett, R. W. Boyd, M. Segev, and E. Karimi, “Twisted” Electrons, Contemp. Phys. 59:2,126144 (2017) 
48.  N. Rivera, G. Rosolen, J. D. Joannopoulos, I. Kaminer and M. Soljačić, Making twophoton processes dominate onephoton processes using midIR phonon polaritons, PNAS 114 (52), 1360713612 (2017) 
47.  R. Remez, N. Shapira, C. RoquesCarmes, R. Tirole, Y. Lereah, M. Soljačić, I. Kaminer, and A. Arie, Spectral and spatial shaping of Smith Purcell Radiation, Phys. Rev. A 96, 061801 (Rapid Communication) (2017) 
46.  L. J. Wong, K.H. Hong, S. Carbajo, A. Fallahi, P. Piot, M. Soljačić, J. D. Joannopoulos, F. X. Kärtner, and I. Kaminer, LaserInduced LinearField Particle Acceleration in Free Space, Sci. Rep. 7, 11159 (2017) (Supplementary materials) Related videos: (1, 2, 3) 
45.  C.H. Chang, N. Rivera, J. D. Joannopoulos, M. Soljačić, and I. Kaminer, Constructing “designer atoms” via resonant grapheneinduced lamb shifts, ACS Photonics 4 (12), 3098–3105 (2017) Invited article (Supplementary materials) 
44.  L. J. Wong, and I. Kaminer, Ultrashort TiltedPulseFront Pulses and Nonparaxial TiltedPhaseFront Beams, ACS Photonics 4, 2257 (2017) § Featured on the A*STAR Research Highlight. 
43.  Y. Hadad, E. Cohen, I. Kaminer, and A. C. Elitzur, Covariant electromagnetic field lines, J. Phys.: Conf. Ser. 880, 012052 (2017) 
42.  M. Mutzafi, I. Kaminer, G. Harari and M. Segev, NonDiffracting Electron Vortex Beams Balancing Their ElectronElectron Interactions, Nature Commun. 8, 650 (2017) 
41.  O. Ilic, I. Kaminer, B. Zhen, H. Buljan, O. Miller, and M. Soljačić, Topologically enabled optical nanomotors, Sci. Adv. 3, e1602738 (2017) § Featured on the MIT front page. 
40.  X. Lin†, Y. Yang†, N. Rivera, J. J. López, Y. Shen, I. Kaminer, H. Chen, J. D. Joannopoulos, and M. Soljačić, Allangle negative refraction of highly squeezed plasmon and phonon polaritons in grapheneboron nitride heterostructures, PNAS 114, 6717 (2017) (Supplementary materials) § Selected for Research Highlights in Nature Photonics 
39.  L. J. Wong, and I. Kaminer, Abruptly Focusing and Defocusing Needles of Light and ClosedForm Electromagnetic Wavepackets, ACS Photonics 4, 1131 (2017) (Supplementary materials) 
38.  S. Tsesses, G. Bartal, and I. Kaminer, Light generation via quantum interaction of electrons with periodic nanostructures, Phys. Rev. A 95, 013832 (2017) 
37.  X. Lin, I. Kaminer, X. Shi, F. Gao, Z. Yang, Z. Gao, H. Buljan, J. D. Joannopoulos, M. Soljačić, H.Chen, B. Zhang, Splashing transients of 2D plasmons launched by swift electrons, Sci. Adv. 3, e1601192 (2017) (Supplementary Materials and Movie showing time evolution of 2D plasmons launched by swift electrons) 
36.  I. Kaminer, S. E. Kooi, R. Shilo, B. Zhen, R. Remez, Y. Shen, J. Lopez, Y. Yang, J. D. Joannopoulos, A. Arie, and M. Soljačić, Spectrally and spatially resolved SmithPurcell radiation in plasmonic crystals with shortrange disorder, Phys. Rev. X 7, 011003 (2017) (Supplementary materials) 
2016  
35.  E. C. Regan, Y. Igarashi, B. Zhen, I. Kaminer, C. W. Hsu, Y. Shen, J. D. Joannopoulos, and M. Soljačić, Direct imaging of isofrequency contours in photonic structures, Sci. Adv. 2, e1601591 (2016) 
34.  X. Lin, N. Rivera, J. Lopez, I. Kaminer, H. Chen, and M. Soljačić, Tailoring the Energy Distribution and Loss of 2D Plasmons, New J. Phys. 18, 105007 (2016) Invited article (Supplementary materials) 
33.  H. Koren, I. Kaminer, and D. R. Raban, The Interplay between Individual Decisions and Structural Network Properties in the Diffusion of Information, PLoS One 11, e0164651 (2016) 
32.  P. Aleahmad, H. M. Cessa, I. Kaminer, M. Segev, and D. N. Christodoulides, Dynamics of accelerating solutions of Maxwell’s equations, JOSA A 33, 20472052 (2016) 
31.  X. Lin, Y. Shen, I. Kaminer, H. Chen, and M. Soljačić, TransverseElectric Brewster Effect Enabled by Nonmagnetic 2D Materials, Phys. Rev. A 94, 023836 (2016) 
30.  H. Herzig Sheinfux, I. Kaminer, A. Z. Genack, and M. Segev, Interplay between evanescence and disorder in deep subwavelength structures, Nature Commun. 7, 12927 (2016) 
29.  N. Rivera†, I. Kaminer†, B. Zhen, J. D. Joannopoulos, and M. Soljačić, Shrinking light to allow forbidden transitions on the atomic scale, Science 353, 263 (2016) (Supplementary materials) 
28.  I. Kaminer, Y. Tenenbaum Katan, H. Buljan, Y. Shen, O. Ilic, J. J. Lopez, L. J. Wong, J. D. Joannopoulos, M. Soljačić, Efficient plasmonic emission by the quantum Čerenkov effect from hot carriers in graphene, Nature Commun. 7, 11880 (2016) (Supplementary materials) § Received commentary in tens of magazines including the Daily Mail. 
27.  I. Kaminer, M. Mutzafi, A. Levy, G. Harari, H. Herzig Sheinfux, S. Skirlo, J. Nemirovsky, J. D. Joannopoulos, M. Segev, M. Soljačić, Quantum Čerenkov Radiation: Spectral Cutoffs and the Role of Spin and Orbital Angular Momentum, Phys. Rev. X 6, 011006 (2016) (Supplementary materials) § Selected for Research Highlights in Nature Physics. 
26.  O. Ilic, I. Kaminer, Y. Lahini, H. Buljan, and M. Soljačić, Exploiting Optical Asymmetry for Controlled Guiding of Particles with Light, ACS Photonics 3, 197 (2016) 
25.  L. J. Wong†, I. Kaminer†, O. Ilic, J. D. Joannopoulos, and M. Soljačić, Towards Graphene PlasmonBased FreeElectron IR to Xray Sources, Nature Photonics 10, 46 (2016) (Supplementary materials) § Featured on the MIT front page, and was also selected for News & Views in Nature Photonics. § Featured on A*STAR Research Highlight. 
2015  
24.  B. Zhen, C. W. Hsu, Y. Igarashi, L. Ling, I. Kaminer, A. Pick, S.L. Chua, J. D. Joannopoulos, and M. Soljačić, Spawning rings of exceptional points out of Dirac cones, Nature 525, 354 (2015) (Supplementary materials) 
23.  Y. Lumer, Y. Liang, R. Schley, I. Kaminer, E. Greenfield, D. Song, X. Zhang, J. Xu, Z. Chen, and M. Segev, Incoherent selfaccelerating beams, Optica 2, 886 (2015) 
22.  I. Kaminer, J. Nemirovsky, M. Rechtsman, R. Bekenstein and M. Segev, Selfaccelerating Dirac particles and prolonging the lifetime of relativistic fermions, Nature Physics 11, 261 (2015) (Supplementary materials) § Published as the journal cover of Nature Physics. It was also selected for News & Views in Nature Physics, and received commentary in several magazines. 
21.  Y. Hadad, E. Cohen, I. Kaminer, and A. C. Elitzur, The hidden geometry of electromagnetism, J. Phys.: Conf. Ser. 626, 012024 (2015) 
2014  
20.  H. Herzig Sheinfux, I. Kaminer, Y. Plotnik, G. Bartal, and M. Segev, Subwavelength Multilayer Dielectrics: Ultrasensitive Transmission and Breakdown of EffectiveMedium Theory, Phys. Rev. Lett. 113, 243901 (2014) 
19.  R. Schley†, I. Kaminer†, E. Greenfield†, R. Bekenstein, Y. Lumer, and M. Segev, Lossproof selfaccelerating beams and their use in nonparaxial manipulation of particles trajectories, Nature Commun. 5, 5189 (2014) (supplementary materials, video) 
18.  L., Oren, L. Levi, I. Orr, R. A. Nemirovsky, J. Nemirovsky, I. Kaminer, M. Segev, and O. Cohen Longlived waveguides and soundwave generation by laser filamentation, Phys. Rev. A (Rapid Communication) 90, 021801 (2014) 
17.  H. Koren, I. Kaminer, and D. R. Raban, Exploring the Effect of Reinvention on Critical Mass Formation and the Diffusion of Information in Social Networks, SNAM 4, 185 (2014) 
16.  K. G. Makris, I. Kaminer, R. ElGanainy, N.K. Efremidis, Z. Chen, M. Segev, and D.N. Christodoulides, Accelerating diffractionfree beams in photonic lattices, Opt. Lett. 39, 2129 (2014) 
15.  R. Bekenstein, J. Nemirovsky, I. Kaminer, and M. Segev, Shapepreserving accelerating electromagnetic wavepackets in curved space, Phys. Rev. X 4, 011038 (2014) 
2013  
14.  I. Kaminer†, J. Nemirovsky†, and M. Segev, Optimizing 3D multiphoton fluorescence microscopy, Opt. Lett. 38, 3945 (2013) 
13.  M. A. Bandres, M.A. Alonso, I. Kaminer, and M. Segev, Three dimensional accelerating electromagnetic waves, Opt. Express 21, 13917 (2013) 
12.  M. A. Bandres, I. Kaminer, M. Mills, B.M. RodrigezLara, E. Greenfield, M. Segev, and D.N. Christodoulides, Accelerating optical beams, Optics and Photonics News 24, 30 (2013) Review article 
11.  I. Kaminer, J. Nemirovsky, K. G. Makris, and M. Segev, Selfaccelerating beams in photonic crystals, Opt. Express 21, 8886 (2013) 
Before 2012  
10.  I. Kaminer, E. Greenfield, R. Bekenstein, J. Nemirovsky, M. Segev, A. Mathis, L. Froehly, F. Courvoisier, and J. M. Dudley, Accelerating Beyond the Horizon, Optics and Photonics News 23, 26 (2012) (December special issue “Optics in 2012”) 
9.  P. Aleahmad, M.A. Miri, M. S. Mills, I. Kaminer, M. Segev, and D. N. Christodoulides, Fully vectorial accelerating diffractionfree Helmholtz beams, Phys. Rev. Lett. 109, 203902 (2012) § This article was selected for Physics Synopsis (by the APS) and also received commentary in Physics World magazine. 
8.  I. Kaminer, J. Nemirovsky, and M. Segev, Selfaccelerating selftrapped nonlinear beams of Maxwell’s equations, Opt. Express 20, 18827 (2012) 
7.  I. Kaminer, R. Bekenstein, J. Nemirovsky, and M. Segev, Nondiffracting accelerating wave packets of Maxwell’s equations, Phys. Rev. Lett. 108, 163901 (2012) § This article was selected for Editors’ Suggestion at PRL and for Viewpoint in Physics spotlighting exceptional research. It also received commentary in Science magazine and in New Scientist magazine. 
6.  I. Dolev, I. Kaminer, A. Shapira, M. Segev, and A. Arie, Experimental Observation of SelfAccelerating Beams in Quadratic Nonlinear Media, Phys. Rev. Lett. 108, 113903 (2012) 
5.  I. Kaminer, Y. Lumer, M. Segev and D.N. Christodoulides, Causality effects on accelerating light pulses, Opt. Express 19, 23132 (2011) 
4.  I. Kaminer, M. Segev and D.N. Christodoulides, SelfAccelerating Self Trapped Optical Beams, Phys. Rev. Lett. 106, 213902 (2011) 
3.  I. Kaminer, M. Segev, and A.M. Bruckstein, Stochastic recurrent dynamics of complex systems of solitons, Phys. Rev. Lett. 105, 083901 (2010) (supplementary materials) 
2.  I. Kaminer, M. Segev, Y.C. Eldar, and A.M. Bruckstein, Solitonets: complex networks of interacting fields, Proc. R. Soc. A 465, 1093 (2008) (Animation 1, Animation 2, Animation 3) 
1.  I. Kaminer, C. Rotschild, O. Manela, and M. Segev, Periodic solitons in nonlocal nonlinear media, Opt. Lett. 32, 3209 (2007) 
In progress  
•  R. Ruimy, A. Gorlach, C. Mechel, N. Rivera and I. Kaminer, Towards atomicresolution quantum measurements with coherentlyshaped free electrons, arXiv:2011.00348 
•  L. J. Wong, N. Rivera, C. Murdia, T. Christensen, J. D. Joannopoulos, M. Soljačić and I. Kaminer, Control of quantum electrodynamical processes by shaping electron wavepackets, arXiv:2011.00714 
•  A. B. Hayun, O. Reinhardt, J. Nemirovsky, A. Karnieli, N. Rivera and I. Kaminer, Shaping Quantum Photonic States Using Free Electrons, arXiv:2011.01315 
•  A. Karnieli, N. Rivera, A. Arie and I. Kaminer, Light emission is fundamentally tied to the quantum coherence of the emitting particle, arXiv:2011.00623 
•  A. Shultzman, O. Segal, Y. Kurman and I. Kaminer, Optimizing Optical Nanostructures for High Energy Particles Detection and UVC emission. Matlab tool Scint_City for optimizing 1D multilayer scintillating nanostructures and analyze how they process images. 
•  S. Ghosh, N. Rivera, G. Eisenstein, and I. Kaminer, Creating heralded hyperentangled photons using Rydberg atoms. Python package “TPERydberg” that enables a range of quantitative predictions in Rydberg cavity QED 
•  L. Jing†, Z. Wang†, X. Lin†, I. Kaminer, H. Hu, E. Li, Y. Liu, M. Chen, B. Zhang, and H. Chen, Polarization shaping of freeelectron radiation by gradient bianisotropic metasurfaces. 
• 
M. Svendsen^{†},Y. Kurman^{†}, P. Schmidt,F. Koppens, I. Kaminer, and K.S. Thygesen, Abinitio calculations of quantum lightmatter interactions in van der Waals heterostructures. 
•  Y. M. Pan†, E. Cohen†, E. Karimi, A. Gover, I. Kaminer and Y. Aharonov, Weak measurement, projective measurement and quantumtoclassical transitions in electronphoton interactions. 
•  G. Raayoni^{†}, S. Gottlieb^{†}, G. Pisha, Y. Harris, Y. Manor, U. Mendlovic, D. Haviv, Y. Hadad, I. Kaminer, The Ramanujan Machine: Automatically Generated Conjectures on Fundamental Constants, arXiv:1907.00205 § Interesting links The Ramanujan Machine, John Baez, Fermat Library, Phys.org and NewScientist 
•  Y. Hadad, E. Cohen, I. Kaminer, and A. C. Elitzur, The geometry of electrodynamics: a covariant generalization of field lines. 
•  M. H. Lynch, E. Cohen, Y. Hadad, I. Kaminer, Experimental evidence for the Unruh effect, arXiv:1903.00043 
•  J. Nemirovsky, E. Cohen, I. Kaminer, SpinSpacetime Censorship, arXiv:1812.11450 
•  Y. Sheffer, Y. Hadad, M. H. Lynch and I. Kaminer, Towards Precision Measurements of Radiation Reaction, arXiv:1812.10188 
•  L. J. Wong, N. Rivera, C. Murdia, T. Christensen, J. D. Joannopoulos, M. Soljačić, and I. Kaminer, Coherent control of quantum electrodynamical processes with shaped electron wavepackets, arXiv: 1712.04529 