Abstract

A pair of stacked two-dimensional heterostructures suitably rotated with respect to each other support exotic electronic properties with interesting implications for nanoelectronics and quantum technologies. A similar paradigm can be extended to light, offering a great promise for emerging low-dimensional nanophotonic heterostructures. In this Opinion article, we discuss emerging photonic responses enabled by twisting and stacking suitably tailored nanostructures. We discuss how the multi-physics interactions of light with matter in twisted bilayers can tailor their photonic response and engineer light dispersion in extreme ways. We conclude by providing an outlook on this emerging field of research and its potential for classical and quantum light manipulation at the nanoscale.

© 2021 Optical Society of America under the terms of the OSA Open Access Publishing Agreement

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2021 (1)

J. M. Park, Y. Cao, K. Watanabe, T. Taniguchi, and P. Jarillo-Herrero, “Tunable strongly coupled superconductivity in magic-angle twisted trilayer graphene,” Nature 590(7845), 249–255 (2021).
[Crossref]

2020 (10)

G. Hu, J. Shen, C.-W. Qiu, A. Alù, and S. Dai, “Phonon polaritons and hyperbolic response in van der Waals materials,” Adv. Opt. Mater. 8(5), 1901393 (2020).
[Crossref]

M. Papaj and C. Lewandowski, “Plasmonic nonreciprocity driven by band hybridization in moiré materials,” Phys. Rev. Lett. 125(6), 066801 (2020).
[Crossref]

P. Novelli, I. Torre, F. H. L. Koppens, F. Taddei, and M. Polini, ““Optical and plasmonic properties of twisted bilayer graphene: Impact of interlayer tunneling asymmetry and ground-state charge inhomogeneity,” Phys. Rev. B 102(12), 125403 (2020).
[Crossref]

P. Li, G. Hu, I. Dolado, M. Tymchenko, C.-W. Qiu, F. J. Alfaro-Mozaz, F. Casanova, L. E. Hueso, S. Liu, J. H. Edgar, S. Vélez, A. Alù, and R. Hillenbrand, “Collective near-field coupling and nonlocal phenomena in infrared-phononic metasurfaces for nano-light canalization,” Nat. Commun. 11(1), 3663 (2020).
[Crossref]

G. Hu, A. Krasnok, Y. Mazor, C.-W. Qiu, and A. Alù, “Moiré hyperbolic metasurfaces,” Nano Lett. 20(5), 3217–3224 (2020).
[Crossref]

G. Hu, Q. Ou, G. Si, Y. Wu, J. Wu, Z. Dai, A. Krasnok, Y. Mazor, Q. Zhang, Q. Bao, C. W. Qiu, and A. Alù, “Topological polaritons and photonic magic-angle in twisted α-MoO3 bi-layers,” Nature 582(7811), 209–213 (2020).
[Crossref]

Z. Dai, G. Hu, G. Si, Q. Ou, Q. Zhang, S. Balendhran, F. Rahman, B. Y. Zhang, J. Z. Ou, G. Li, A. Alù, C.-W. Qiu, and Q. Bao, “Edge-oriented and steerable hyperbolic polaritons in anisotropic van der Waals nanocavities,” Nat. Commun. 11(1), 6086 (2020).
[Crossref]

J. Duan, N. C. Robayna, J. T. Gutiérrez, G. Álvarez-Pérez, I. Prieto, J. M. Sánchez, A. Y. Nikitin, and P. A. González, “Twisted nano-optics: manipulating light at the nanoscale with twisted phonon polaritonic slabs,” Nano Lett. 20(7), 5323–5329 (2020).
[Crossref]

Z. Zheng, F. Sun, W. Huang, J. Jiang, R. Zhan, Y. Ke, H. Chen, and S. Deng, “Phonon polaritons in twisted double-layers of hyperbolic van der Waals crystals,” Nano Lett. 20(7), 5301–5308 (2020).
[Crossref]

Q. Fu, P. Wang, C. Huang, Y. V. Kartashov, L. Torner, V. V. Konotop, and F. Ye, “Optical soliton formation controlled by angle twisting in photonic moiré lattices,” Nat. Photonics 14(11), 663–668 (2020).
[Crossref]

2019 (4)

O. V. Kotov and Y. E. Lozovik, “Hyperbolic hybrid waves and optical topological transitions in few-layer anisotropic metasurfaces,” Phys. Rev. B 100(16), 165424 (2019).
[Crossref]

G. X. Ni, H. Wang, B.-Y. Jiang, L. X. Chen, Y. Du, Z. Y. Sun, M. D. Goldflam, A. J. Frenzel, X. M. Xie, M. M. Fogler, and D. N. Basov, “Soliton superlattices in twisted hexagonal boron nitride,” Nat. Commun. 10(1), 1–6 (2019).
[Crossref]

W. Chen, Z. Sun, Z. Wang, L. Gu, X. Xu, S. Wu, and C. Gao, “Direct observation of van der Waals stacking-dependent interlayer magnetism,” Science 366(6468), 983–987 (2019).
[Crossref]

Z. Zheng, N. Xu, S. L. Oscurato, M. Tamagnone, F. Sun, Y. Jiang, Y. Ke, J. Chen, W. Huang, W. L. Wilson, A. Ambrosio, S. Deng, and H. Chen, “A mid-infrared biaxial hyperbolic van der Waals crystal,” Sci. Adv. 5(5), eaav8690 (2019).
[Crossref]

2018 (9)

T. G. Folland, A. Fali, S. T. White, J. R. Matson, S. Liu, N. A. Aghamiri, J. H. Edgar, R. F. Haglund, Y. Abate, and J. D. Caldwell, “Reconfigurable infrared hyperbolic metasurfaces using phase change materials,” Nat. Commun. 9(1), 4371–4377 (2018).
[Crossref]

W. Ma, P. A. González, S. Li, A. Y. Nikitin, J. Yuan, J. M. Sánchez, J. T. Gutiérrez, I. Amenabar, P. Li, S. Vélez, C. Tollan, Z. Dai, Y. Zhang, S. Sriram, K. K. Zadeh, S. T. Lee, R. Hillenbrand, and Q. Bao, “In-plane anisotropic and ultra-low-loss polaritons in a natural van der Waals crystal,” Nature 562(7728), 557–562 (2018).
[Crossref]

N. Mounet, G. Marco, P. Schwaller, D. Campi, A. Merkys, A. Marrazzo, T. Sohier, I. E. Castelli, A. Cepellotti, G. Pizzi, and N. Marzari, “Two-dimensional materials from high-throughput computational exfoliation of experimentally known compounds,” Nat. Nanotechnol. 13(3), 246–252 (2018).
[Crossref]

H. Xu, G. Hu, L. Han, M. Jiang, Y. Huang, Y. Li, X. Yang, X. Ling, L. Chen, J. Zhao, and C. Qiu, “Chirality-assisted high-efficiency metasurfaces with independent control of phase, amplitude, and polarization,” Adv. Opt. Mater. 7, 1801479 (2018).
[Crossref]

W. Ma, F. Cheng, and Y. Liu, “Deep-learning-enabled on-demand design of chiral metamaterials,” ACS Nano 12(6), 6326–6334 (2018).
[Crossref]

Y. Cao, V. Fatemi, S. Fang, K. Watanabe, T. Taniguchi, E. Kaxiras, and P. Jarillo-Herrero, “Unconventional superconductivity in magic-angle graphene superlattices,” Nature 556(7699), 43–50 (2018).
[Crossref]

Y. Cao, V. Fatemi, A. Demir, S. Fang, S. L. Tomarken, J. Y. Luo, J. D. Sanchez-Yamagishi, K. Watanabe, T. Taniguchi, E. Kaxiras, R. C. Ashoori, and P. Jarillo-Herrero, “Correlated insulator behaviour at half-filling in magic-angle graphene superlattices,” Nature 556(7699), 80–84 (2018).
[Crossref]

S. S. Sunku, G. X. Ni, B. Y. Jiang, H. Yoo, A. Sternbach, A. S. McLeod, T. Stauber, L. Xiong, T. Taniguchi, K. Watanabe, P. Kim, M. M. Fogler, and D. N. Basov, “Photonic crystals for nano-light in moiré graphene superlattices,” Science 362(6419), 1153–1156 (2018).
[Crossref]

P. Li, I. Dolado, F. J. Alfaro-Mozaz, F. Casanova, L. E. Hueso, S. Liu, J. H. Edgar, A. Y. Nikitin, S. Vélez, and R. Hillenbrand, “Infrared hyperbolic metasurface based on nanostructured van der Waals materials,” Science 359(6378), 892–896 (2018).
[Crossref]

2017 (4)

F. Wu, T. Lovorn, and A. H. MacDonald, “Topological exciton bands in moiré heterojunctions,” Phys. Rev. Lett. 118(14), 147401 (2017).
[Crossref]

H. Yu, G. B. Liu, J. Tang, X. Xu, and W. Yao, “Moiré excitons: From programmable quantum emitter arrays to spin-orbit–coupled artificial lattices,” Sci. Adv. 3(11), e1701696 (2017).
[Crossref]

Y. Zhao, A. N. Askarpour, L. Sun, J. Shi, X. Li, and A. Alù, “Chirality detection of enantiomers using twisted optical metamaterials,” Nat. Commun. 8(1), 14180 (2017).
[Crossref]

S. Carr, D. Massatt, S. Fang, P. Cazeaux, M. Luskin, and E. Kaxiras, “Twistronics: manipulating the electronicproperties of two-dimensional layered structures through their twist angle,” Phys. Rev. B 95(7), 075420 (2017).
[Crossref]

2016 (3)

L. Jiang, Z. Shi, B. Zeng, S. Wang, J.-H. Kang, T. Joshi, C. Jin, L. Ju, J. Kim, T. Lyu, Y.-R. Shen, M. Crommie, H.-J. Gao, and F. Wang, “Soliton-dependent plasmon reflection at bilayer graphene domain walls,” Nat. Mater. 15(8), 840–844 (2016).
[Crossref]

J. B. Yin, H. Wang, H. Peng, Z. J. Tan, L. Liao, L. Lin, X. Sun, A. L. Koh, Y. L. Chen, H. L. Peng, and Z. F. Liu, “Selectively enhanced photocurrent generation in twisted bilayer graphene with van Hove singularity,” Nat. Commun. 7(1), 10699 (2016).
[Crossref]

P. Li, X. Yang, T. W. W. Maß, J. Hanss, M. Lewin, A.-K. U. Michel, M. Wuttig, and T. Taubner, “Reversible optical switching of highly confined phonon–polaritons with an ultrathin phase-change material,” Nat. Mater. 15(8), 870–875 (2016).
[Crossref]

2015 (1)

J. S. Gomez-Diaz, M. Tymchenko, and A. Alù, “Hyperbolic plasmons and topological transitions over uniaxial metasurfaces,” Phys. Rev. Lett. 114(23), 233901 (2015).
[Crossref]

2013 (1)

A. K. Geim and I. V. Grigorieva, “Van der Waals heterostructures,” Nature 499(7459), 419–425 (2013).
[Crossref]

2012 (2)

Y. Zhao, M. Belkin, and A. Alù, “Twisted optical metamaterials for planarized ultrathin broadband circular polarizers,” Nat. Commun. 3(1), 870 (2012).
[Crossref]

H. N. S. Krishnamoorthy, Z. Jacob, E. Narimanov, I. Kretzschmar, and V. M. Menon, “Topological transitions in metamaterials,” Science 336(6078), 205–209 (2012).
[Crossref]

2010 (2)

K. F. Mak, C. Lee, J. Hone, J. Shan, and T. F. Heinz, “Atomically thin MoS2: a new direct-gap semiconductor,” Phys. Rev. Lett. 105(13), 136805 (2010).
[Crossref]

A. Splendiani, L. Sun, Y. Zhang, T. Li, J. Kim, C. Y. Chim, G. Galli, and F. Wang, “Emerging Photoluminescence in Monolayer MoS2,” Nano Lett. 10(4), 1271–1275 (2010).
[Crossref]

2005 (2)

K. S. Novoselov, A. K. Geim, S. V. Morozov, D. Jiang, M. I. Katsnelson, I. Grigorieva, S. Dubonos, and A. A. Firsov, “Two-dimensional gas of massless Dirac fermions in graphene,” Nature 438(7065), 197–200 (2005).
[Crossref]

Y. Zhang, Y.-W. Tan, H. L. Stormer, and P. Kim, “Experimental observation of the quantum Hall effect and Berry's phase in graphene,” Nature 438(7065), 201–204 (2005).
[Crossref]

2004 (1)

K. S. Novoselov, A. K. Geim, S. V. Morozov, D. Jiang, Y. Zhang, S. V. Dubonos, I. V. Grigorieva, and A. A. Firsov, “Electric field effect in atomically thin carbon films,” Science 306(5696), 666–669 (2004).
[Crossref]

1960 (1)

I. M. Lifshitz, “Anomalies of electron characteristics of a metal in the high-pressure region,” Sov. Phys. JETP 11(5), 1130 (1960).

Abate, Y.

T. G. Folland, A. Fali, S. T. White, J. R. Matson, S. Liu, N. A. Aghamiri, J. H. Edgar, R. F. Haglund, Y. Abate, and J. D. Caldwell, “Reconfigurable infrared hyperbolic metasurfaces using phase change materials,” Nat. Commun. 9(1), 4371–4377 (2018).
[Crossref]

Aghamiri, N. A.

T. G. Folland, A. Fali, S. T. White, J. R. Matson, S. Liu, N. A. Aghamiri, J. H. Edgar, R. F. Haglund, Y. Abate, and J. D. Caldwell, “Reconfigurable infrared hyperbolic metasurfaces using phase change materials,” Nat. Commun. 9(1), 4371–4377 (2018).
[Crossref]

Alfaro-Mozaz, F. J.

P. Li, G. Hu, I. Dolado, M. Tymchenko, C.-W. Qiu, F. J. Alfaro-Mozaz, F. Casanova, L. E. Hueso, S. Liu, J. H. Edgar, S. Vélez, A. Alù, and R. Hillenbrand, “Collective near-field coupling and nonlocal phenomena in infrared-phononic metasurfaces for nano-light canalization,” Nat. Commun. 11(1), 3663 (2020).
[Crossref]

P. Li, I. Dolado, F. J. Alfaro-Mozaz, F. Casanova, L. E. Hueso, S. Liu, J. H. Edgar, A. Y. Nikitin, S. Vélez, and R. Hillenbrand, “Infrared hyperbolic metasurface based on nanostructured van der Waals materials,” Science 359(6378), 892–896 (2018).
[Crossref]

Alonso-González, P.

J. Duan, G. Álvarez-Pérez, K. V. Voronin, I. Prieto, J. Taboada-Gutiérrez, V. S. Volkov, J. Martín-Sánchez, A. Y. Nikitin, and P. Alonso-González, “Enabling propagation of anisotropic polaritons along forbidden directions via a topological transition,” arXiv:2103.09346 (2021).

Alù, A.

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Figures (1)

Fig. 1.
Fig. 1. Photonic materials with a twist. A, Schematics of photonic materials with Lego-like twisted stacking. B, Twist-stacked metamaterials made of several layers of anisotropic nanorod arrays, enabling broadband generation of circularly polarized light [11]. C, Atom superlattice of twisted bilayer graphene (left) and its near-field map using scanning microscopy (right). Soliton domains and graphene plasmons reflected by a domain wall [17]. D, Twisted bilayer TMDCs, such as MoX2 and WX2, and the associated local atomic registry showcasing different symmetries. Here, X means any kind of chalcogen element [26]. E, Twisted bilayer graphene metasurfaces [30]. F, Twisted α-MoO3 bilayer (left) and its supported phonon polariton distribution in real space as a function of rotation angle [31]. (Figures adapted and reprinted with permission from their respective sources).

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