K. Yu, Z. Guo, H. Jiang, and H. Chen, “Loss-induced topological transition of dispersion in metamaterials,” J. Appl. Phys. 119(20), 203102 (2016).

[Crossref]

T. Tang, C. Li, and L. Luo, “Enhanced spin Hall effect of tunneling light in hyperbolic metamaterial waveguide,” Sci. Rep. 6, 30762 (2016).

[Crossref]
[PubMed]

W. Zhu and W. She, “Enhanced spin Hall effect of transmitted light through a thin epsilon-near-zero slab,” Opt. Lett. 40(13), 2961–2964 (2015).

[Crossref]
[PubMed]

H. Jiang, W. Liu, K. Yu, K. Fang, Y. Sun, Y. Li, and H. Chen, “Experimental verification of loss-induced field enhancement and collimation in anisotropic μ -near-zero metamaterials,” Phys. Rev. B 91(4), 045302 (2015).

[Crossref]

X. Ling, X. Zhou, X. Yi, W. Shu, Y. Liu, S. Chen, H. Luo, S. Wen, and D. Fan, “Giant photonic spin Hall effect in momentum space in a structured metamaterial with spatially varying birefringence,” Light Sci. Appl. 4(5), e290 (2015).

[Crossref]

X. Zhang and Y. Wu, “Effective medium theory for anisotropic metamaterials,” Sci. Rep. 5, 7892 (2015).

[Crossref]
[PubMed]

A. Aiello, P. Banzer, M. Neugebauer, and G. Leuchs, “From transverse angular momentum to photonic wheels,” Nat. Photonics 9(12), 789–795 (2015).

[Crossref]

K. Y. Bliokh, F. J. Rodríguez-Fortuño, F. Nori, and A. V. Zayats, “Spin-orbit interactions of light,” Nat. Photonics 9(12), 796–808 (2015).

[Crossref]

X. Zhou, X. Ling, Z. Zhang, H. Luo, and S. Wen, “Observation of Spin Hall Effect in Photon Tunneling via Weak Measurements,” Sci. Rep. 4, 7388 (2014).

[Crossref]
[PubMed]

J. J. Yang, Y. Francescato, S. A. Maier, F. Mao, and M. Huang, “Mu and epsilon near zero metamaterials for perfect coherence and new antenna designs,” Opt. Express 22(8), 9107–9114 (2014).

[Crossref]
[PubMed]

S. Feng, “Loss-induced omnidirectional bending to the normal in ϵ-near-zero metamaterials,” Phys. Rev. Lett. 108(19), 193904 (2012).

[Crossref]
[PubMed]

L. Sun, S. Feng, and X. Yang, “Loss enhanced transmission and collimation in anisotropic epsilon-near-zero metamaterials,” Appl. Phys. Lett. 101(24), 241101 (2012).

[Crossref]

H. Luo, X. Ling, X. Zhou, W. Shu, S. Wen, and D. Fan, “Enhancing or suppressing the spin Hall effect of light in layered nanostructures,” Phys. Rev. A 84(3), 033801 (2011).

[Crossref]

L. Benjamin, D. Murthy, and A. Corona-Chavez, “Half mode microwave filters based on epsilon near zero and mu near zero concepts,” Prog. Electromagnetics Res. 113, 379–393 (2011).

[Crossref]

Y. Qin, Y. Li, X. Feng, Z. Liu, H. He, Y. F. Xiao, and Q. Gong, “Spin Hall effect of reflected light at the air-uniaxial crystal interface,” Opt. Express 18(16), 16832–16839 (2010).

[Crossref]
[PubMed]

H. Luo, S. Wen, W. Shu, and D. Fan, “Spin Hall effect of light in photon tunneling,” Phys. Rev. A 82(4), 043825 (2010).

[Crossref]

B. Wang and K. Huang, “Shaping the radiation pattern with mu and epsilon-near-zero metamaterials,” Prog. Electromagnetics Res. 106, 107–119 (2010).

[Crossref]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

M. Huang, J. Peng, and J. Yang, “Directive emission obtained by Mu and epsilon-near-zero metamaterials,” Radioengineering 18(2), 124–128 (2009).

O. Hosten and P. Kwiat, “Observation of the spin Hall effect of light via weak measurements,” Science 319(5864), 787–790 (2008).

[Crossref]
[PubMed]

A. Alù, M. G. Silveirinha, A. Salandrino, and N. Engheta, “Epsilon-near-zero metamaterials and electromagnetic sources: Tailoring the radiation phase pattern,” Phys. Rev. B 75(15), 155410 (2007).

[Crossref]

M. Onoda, S. Murakami, and N. Nagaosa, “Hall effect of light,” Phys. Rev. Lett. 93(8), 083901 (2004).

[Crossref]
[PubMed]

C. Imbert, “Calculation and experimental proof of the transverse shift induced by total internal reflection of a circularly polarized light beam,” Phys. Rev. D Part. Fields 5(4), 4 (1972).

[Crossref]

F. I. Fedorov, “To the theory of total reflection,” Dokl. Akad. Nauk SSSR 105, 465 (1955).

A. Aiello, P. Banzer, M. Neugebauer, and G. Leuchs, “From transverse angular momentum to photonic wheels,” Nat. Photonics 9(12), 789–795 (2015).

[Crossref]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

A. Alù, M. G. Silveirinha, A. Salandrino, and N. Engheta, “Epsilon-near-zero metamaterials and electromagnetic sources: Tailoring the radiation phase pattern,” Phys. Rev. B 75(15), 155410 (2007).

[Crossref]

A. Aiello, P. Banzer, M. Neugebauer, and G. Leuchs, “From transverse angular momentum to photonic wheels,” Nat. Photonics 9(12), 789–795 (2015).

[Crossref]

L. Benjamin, D. Murthy, and A. Corona-Chavez, “Half mode microwave filters based on epsilon near zero and mu near zero concepts,” Prog. Electromagnetics Res. 113, 379–393 (2011).

[Crossref]

K. Y. Bliokh, F. J. Rodríguez-Fortuño, F. Nori, and A. V. Zayats, “Spin-orbit interactions of light,” Nat. Photonics 9(12), 796–808 (2015).

[Crossref]

K. Yu, Z. Guo, H. Jiang, and H. Chen, “Loss-induced topological transition of dispersion in metamaterials,” J. Appl. Phys. 119(20), 203102 (2016).

[Crossref]

H. Jiang, W. Liu, K. Yu, K. Fang, Y. Sun, Y. Li, and H. Chen, “Experimental verification of loss-induced field enhancement and collimation in anisotropic μ -near-zero metamaterials,” Phys. Rev. B 91(4), 045302 (2015).

[Crossref]

X. Ling, X. Zhou, X. Yi, W. Shu, Y. Liu, S. Chen, H. Luo, S. Wen, and D. Fan, “Giant photonic spin Hall effect in momentum space in a structured metamaterial with spatially varying birefringence,” Light Sci. Appl. 4(5), e290 (2015).

[Crossref]

L. Benjamin, D. Murthy, and A. Corona-Chavez, “Half mode microwave filters based on epsilon near zero and mu near zero concepts,” Prog. Electromagnetics Res. 113, 379–393 (2011).

[Crossref]

A. Alù, M. G. Silveirinha, A. Salandrino, and N. Engheta, “Epsilon-near-zero metamaterials and electromagnetic sources: Tailoring the radiation phase pattern,” Phys. Rev. B 75(15), 155410 (2007).

[Crossref]

X. Ling, X. Zhou, X. Yi, W. Shu, Y. Liu, S. Chen, H. Luo, S. Wen, and D. Fan, “Giant photonic spin Hall effect in momentum space in a structured metamaterial with spatially varying birefringence,” Light Sci. Appl. 4(5), e290 (2015).

[Crossref]

H. Luo, X. Ling, X. Zhou, W. Shu, S. Wen, and D. Fan, “Enhancing or suppressing the spin Hall effect of light in layered nanostructures,” Phys. Rev. A 84(3), 033801 (2011).

[Crossref]

H. Luo, S. Wen, W. Shu, and D. Fan, “Spin Hall effect of light in photon tunneling,” Phys. Rev. A 82(4), 043825 (2010).

[Crossref]

H. Jiang, W. Liu, K. Yu, K. Fang, Y. Sun, Y. Li, and H. Chen, “Experimental verification of loss-induced field enhancement and collimation in anisotropic μ -near-zero metamaterials,” Phys. Rev. B 91(4), 045302 (2015).

[Crossref]

F. I. Fedorov, “To the theory of total reflection,” Dokl. Akad. Nauk SSSR 105, 465 (1955).

S. Feng, “Loss-induced omnidirectional bending to the normal in ϵ-near-zero metamaterials,” Phys. Rev. Lett. 108(19), 193904 (2012).

[Crossref]
[PubMed]

L. Sun, S. Feng, and X. Yang, “Loss enhanced transmission and collimation in anisotropic epsilon-near-zero metamaterials,” Appl. Phys. Lett. 101(24), 241101 (2012).

[Crossref]

K. Yu, Z. Guo, H. Jiang, and H. Chen, “Loss-induced topological transition of dispersion in metamaterials,” J. Appl. Phys. 119(20), 203102 (2016).

[Crossref]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

O. Hosten and P. Kwiat, “Observation of the spin Hall effect of light via weak measurements,” Science 319(5864), 787–790 (2008).

[Crossref]
[PubMed]

B. Wang and K. Huang, “Shaping the radiation pattern with mu and epsilon-near-zero metamaterials,” Prog. Electromagnetics Res. 106, 107–119 (2010).

[Crossref]

J. J. Yang, Y. Francescato, S. A. Maier, F. Mao, and M. Huang, “Mu and epsilon near zero metamaterials for perfect coherence and new antenna designs,” Opt. Express 22(8), 9107–9114 (2014).

[Crossref]
[PubMed]

M. Huang, J. Peng, and J. Yang, “Directive emission obtained by Mu and epsilon-near-zero metamaterials,” Radioengineering 18(2), 124–128 (2009).

C. Imbert, “Calculation and experimental proof of the transverse shift induced by total internal reflection of a circularly polarized light beam,” Phys. Rev. D Part. Fields 5(4), 4 (1972).

[Crossref]

K. Yu, Z. Guo, H. Jiang, and H. Chen, “Loss-induced topological transition of dispersion in metamaterials,” J. Appl. Phys. 119(20), 203102 (2016).

[Crossref]

H. Jiang, W. Liu, K. Yu, K. Fang, Y. Sun, Y. Li, and H. Chen, “Experimental verification of loss-induced field enhancement and collimation in anisotropic μ -near-zero metamaterials,” Phys. Rev. B 91(4), 045302 (2015).

[Crossref]

O. Hosten and P. Kwiat, “Observation of the spin Hall effect of light via weak measurements,” Science 319(5864), 787–790 (2008).

[Crossref]
[PubMed]

A. Aiello, P. Banzer, M. Neugebauer, and G. Leuchs, “From transverse angular momentum to photonic wheels,” Nat. Photonics 9(12), 789–795 (2015).

[Crossref]

T. Tang, C. Li, and L. Luo, “Enhanced spin Hall effect of tunneling light in hyperbolic metamaterial waveguide,” Sci. Rep. 6, 30762 (2016).

[Crossref]
[PubMed]

H. Jiang, W. Liu, K. Yu, K. Fang, Y. Sun, Y. Li, and H. Chen, “Experimental verification of loss-induced field enhancement and collimation in anisotropic μ -near-zero metamaterials,” Phys. Rev. B 91(4), 045302 (2015).

[Crossref]

Y. Qin, Y. Li, X. Feng, Z. Liu, H. He, Y. F. Xiao, and Q. Gong, “Spin Hall effect of reflected light at the air-uniaxial crystal interface,” Opt. Express 18(16), 16832–16839 (2010).

[Crossref]
[PubMed]

X. Ling, X. Zhou, X. Yi, W. Shu, Y. Liu, S. Chen, H. Luo, S. Wen, and D. Fan, “Giant photonic spin Hall effect in momentum space in a structured metamaterial with spatially varying birefringence,” Light Sci. Appl. 4(5), e290 (2015).

[Crossref]

X. Zhou, X. Ling, Z. Zhang, H. Luo, and S. Wen, “Observation of Spin Hall Effect in Photon Tunneling via Weak Measurements,” Sci. Rep. 4, 7388 (2014).

[Crossref]
[PubMed]

H. Luo, X. Ling, X. Zhou, W. Shu, S. Wen, and D. Fan, “Enhancing or suppressing the spin Hall effect of light in layered nanostructures,” Phys. Rev. A 84(3), 033801 (2011).

[Crossref]

H. Jiang, W. Liu, K. Yu, K. Fang, Y. Sun, Y. Li, and H. Chen, “Experimental verification of loss-induced field enhancement and collimation in anisotropic μ -near-zero metamaterials,” Phys. Rev. B 91(4), 045302 (2015).

[Crossref]

X. Ling, X. Zhou, X. Yi, W. Shu, Y. Liu, S. Chen, H. Luo, S. Wen, and D. Fan, “Giant photonic spin Hall effect in momentum space in a structured metamaterial with spatially varying birefringence,” Light Sci. Appl. 4(5), e290 (2015).

[Crossref]

X. Ling, X. Zhou, X. Yi, W. Shu, Y. Liu, S. Chen, H. Luo, S. Wen, and D. Fan, “Giant photonic spin Hall effect in momentum space in a structured metamaterial with spatially varying birefringence,” Light Sci. Appl. 4(5), e290 (2015).

[Crossref]

X. Zhou, X. Ling, Z. Zhang, H. Luo, and S. Wen, “Observation of Spin Hall Effect in Photon Tunneling via Weak Measurements,” Sci. Rep. 4, 7388 (2014).

[Crossref]
[PubMed]

H. Luo, X. Ling, X. Zhou, W. Shu, S. Wen, and D. Fan, “Enhancing or suppressing the spin Hall effect of light in layered nanostructures,” Phys. Rev. A 84(3), 033801 (2011).

[Crossref]

H. Luo, S. Wen, W. Shu, and D. Fan, “Spin Hall effect of light in photon tunneling,” Phys. Rev. A 82(4), 043825 (2010).

[Crossref]

T. Tang, C. Li, and L. Luo, “Enhanced spin Hall effect of tunneling light in hyperbolic metamaterial waveguide,” Sci. Rep. 6, 30762 (2016).

[Crossref]
[PubMed]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

M. Onoda, S. Murakami, and N. Nagaosa, “Hall effect of light,” Phys. Rev. Lett. 93(8), 083901 (2004).

[Crossref]
[PubMed]

L. Benjamin, D. Murthy, and A. Corona-Chavez, “Half mode microwave filters based on epsilon near zero and mu near zero concepts,” Prog. Electromagnetics Res. 113, 379–393 (2011).

[Crossref]

M. Onoda, S. Murakami, and N. Nagaosa, “Hall effect of light,” Phys. Rev. Lett. 93(8), 083901 (2004).

[Crossref]
[PubMed]

A. Aiello, P. Banzer, M. Neugebauer, and G. Leuchs, “From transverse angular momentum to photonic wheels,” Nat. Photonics 9(12), 789–795 (2015).

[Crossref]

K. Y. Bliokh, F. J. Rodríguez-Fortuño, F. Nori, and A. V. Zayats, “Spin-orbit interactions of light,” Nat. Photonics 9(12), 796–808 (2015).

[Crossref]

M. Onoda, S. Murakami, and N. Nagaosa, “Hall effect of light,” Phys. Rev. Lett. 93(8), 083901 (2004).

[Crossref]
[PubMed]

M. Huang, J. Peng, and J. Yang, “Directive emission obtained by Mu and epsilon-near-zero metamaterials,” Radioengineering 18(2), 124–128 (2009).

K. Y. Bliokh, F. J. Rodríguez-Fortuño, F. Nori, and A. V. Zayats, “Spin-orbit interactions of light,” Nat. Photonics 9(12), 796–808 (2015).

[Crossref]

A. Alù, M. G. Silveirinha, A. Salandrino, and N. Engheta, “Epsilon-near-zero metamaterials and electromagnetic sources: Tailoring the radiation phase pattern,” Phys. Rev. B 75(15), 155410 (2007).

[Crossref]

X. Ling, X. Zhou, X. Yi, W. Shu, Y. Liu, S. Chen, H. Luo, S. Wen, and D. Fan, “Giant photonic spin Hall effect in momentum space in a structured metamaterial with spatially varying birefringence,” Light Sci. Appl. 4(5), e290 (2015).

[Crossref]

H. Luo, X. Ling, X. Zhou, W. Shu, S. Wen, and D. Fan, “Enhancing or suppressing the spin Hall effect of light in layered nanostructures,” Phys. Rev. A 84(3), 033801 (2011).

[Crossref]

H. Luo, S. Wen, W. Shu, and D. Fan, “Spin Hall effect of light in photon tunneling,” Phys. Rev. A 82(4), 043825 (2010).

[Crossref]

A. Alù, M. G. Silveirinha, A. Salandrino, and N. Engheta, “Epsilon-near-zero metamaterials and electromagnetic sources: Tailoring the radiation phase pattern,” Phys. Rev. B 75(15), 155410 (2007).

[Crossref]

L. Sun, S. Feng, and X. Yang, “Loss enhanced transmission and collimation in anisotropic epsilon-near-zero metamaterials,” Appl. Phys. Lett. 101(24), 241101 (2012).

[Crossref]

H. Jiang, W. Liu, K. Yu, K. Fang, Y. Sun, Y. Li, and H. Chen, “Experimental verification of loss-induced field enhancement and collimation in anisotropic μ -near-zero metamaterials,” Phys. Rev. B 91(4), 045302 (2015).

[Crossref]

T. Tang, C. Li, and L. Luo, “Enhanced spin Hall effect of tunneling light in hyperbolic metamaterial waveguide,” Sci. Rep. 6, 30762 (2016).

[Crossref]
[PubMed]

B. Wang and K. Huang, “Shaping the radiation pattern with mu and epsilon-near-zero metamaterials,” Prog. Electromagnetics Res. 106, 107–119 (2010).

[Crossref]

X. Ling, X. Zhou, X. Yi, W. Shu, Y. Liu, S. Chen, H. Luo, S. Wen, and D. Fan, “Giant photonic spin Hall effect in momentum space in a structured metamaterial with spatially varying birefringence,” Light Sci. Appl. 4(5), e290 (2015).

[Crossref]

X. Zhou, X. Ling, Z. Zhang, H. Luo, and S. Wen, “Observation of Spin Hall Effect in Photon Tunneling via Weak Measurements,” Sci. Rep. 4, 7388 (2014).

[Crossref]
[PubMed]

H. Luo, X. Ling, X. Zhou, W. Shu, S. Wen, and D. Fan, “Enhancing or suppressing the spin Hall effect of light in layered nanostructures,” Phys. Rev. A 84(3), 033801 (2011).

[Crossref]

H. Luo, S. Wen, W. Shu, and D. Fan, “Spin Hall effect of light in photon tunneling,” Phys. Rev. A 82(4), 043825 (2010).

[Crossref]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

X. Zhang and Y. Wu, “Effective medium theory for anisotropic metamaterials,” Sci. Rep. 5, 7892 (2015).

[Crossref]
[PubMed]

M. Huang, J. Peng, and J. Yang, “Directive emission obtained by Mu and epsilon-near-zero metamaterials,” Radioengineering 18(2), 124–128 (2009).

L. Sun, S. Feng, and X. Yang, “Loss enhanced transmission and collimation in anisotropic epsilon-near-zero metamaterials,” Appl. Phys. Lett. 101(24), 241101 (2012).

[Crossref]

X. Ling, X. Zhou, X. Yi, W. Shu, Y. Liu, S. Chen, H. Luo, S. Wen, and D. Fan, “Giant photonic spin Hall effect in momentum space in a structured metamaterial with spatially varying birefringence,” Light Sci. Appl. 4(5), e290 (2015).

[Crossref]

K. Yu, Z. Guo, H. Jiang, and H. Chen, “Loss-induced topological transition of dispersion in metamaterials,” J. Appl. Phys. 119(20), 203102 (2016).

[Crossref]

H. Jiang, W. Liu, K. Yu, K. Fang, Y. Sun, Y. Li, and H. Chen, “Experimental verification of loss-induced field enhancement and collimation in anisotropic μ -near-zero metamaterials,” Phys. Rev. B 91(4), 045302 (2015).

[Crossref]

K. Y. Bliokh, F. J. Rodríguez-Fortuño, F. Nori, and A. V. Zayats, “Spin-orbit interactions of light,” Nat. Photonics 9(12), 796–808 (2015).

[Crossref]

X. Zhang and Y. Wu, “Effective medium theory for anisotropic metamaterials,” Sci. Rep. 5, 7892 (2015).

[Crossref]
[PubMed]

X. Zhou, X. Ling, Z. Zhang, H. Luo, and S. Wen, “Observation of Spin Hall Effect in Photon Tunneling via Weak Measurements,” Sci. Rep. 4, 7388 (2014).

[Crossref]
[PubMed]

X. Ling, X. Zhou, X. Yi, W. Shu, Y. Liu, S. Chen, H. Luo, S. Wen, and D. Fan, “Giant photonic spin Hall effect in momentum space in a structured metamaterial with spatially varying birefringence,” Light Sci. Appl. 4(5), e290 (2015).

[Crossref]

X. Zhou, X. Ling, Z. Zhang, H. Luo, and S. Wen, “Observation of Spin Hall Effect in Photon Tunneling via Weak Measurements,” Sci. Rep. 4, 7388 (2014).

[Crossref]
[PubMed]

H. Luo, X. Ling, X. Zhou, W. Shu, S. Wen, and D. Fan, “Enhancing or suppressing the spin Hall effect of light in layered nanostructures,” Phys. Rev. A 84(3), 033801 (2011).

[Crossref]

L. Sun, S. Feng, and X. Yang, “Loss enhanced transmission and collimation in anisotropic epsilon-near-zero metamaterials,” Appl. Phys. Lett. 101(24), 241101 (2012).

[Crossref]

F. I. Fedorov, “To the theory of total reflection,” Dokl. Akad. Nauk SSSR 105, 465 (1955).

K. Yu, Z. Guo, H. Jiang, and H. Chen, “Loss-induced topological transition of dispersion in metamaterials,” J. Appl. Phys. 119(20), 203102 (2016).

[Crossref]

X. Ling, X. Zhou, X. Yi, W. Shu, Y. Liu, S. Chen, H. Luo, S. Wen, and D. Fan, “Giant photonic spin Hall effect in momentum space in a structured metamaterial with spatially varying birefringence,” Light Sci. Appl. 4(5), e290 (2015).

[Crossref]

A. Aiello, P. Banzer, M. Neugebauer, and G. Leuchs, “From transverse angular momentum to photonic wheels,” Nat. Photonics 9(12), 789–795 (2015).

[Crossref]

K. Y. Bliokh, F. J. Rodríguez-Fortuño, F. Nori, and A. V. Zayats, “Spin-orbit interactions of light,” Nat. Photonics 9(12), 796–808 (2015).

[Crossref]

J. J. Yang, Y. Francescato, S. A. Maier, F. Mao, and M. Huang, “Mu and epsilon near zero metamaterials for perfect coherence and new antenna designs,” Opt. Express 22(8), 9107–9114 (2014).

[Crossref]
[PubMed]

Y. Qin, Y. Li, X. Feng, Z. Liu, H. He, Y. F. Xiao, and Q. Gong, “Spin Hall effect of reflected light at the air-uniaxial crystal interface,” Opt. Express 18(16), 16832–16839 (2010).

[Crossref]
[PubMed]

H. Luo, S. Wen, W. Shu, and D. Fan, “Spin Hall effect of light in photon tunneling,” Phys. Rev. A 82(4), 043825 (2010).

[Crossref]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

M. Merano, N. Hermosa, J. P. Woerdman, and A. Aiello, “How orbital angular momentum affects beam shifts in optical reflection,” Phys. Rev. A 83(2), 023817 (2010).

[Crossref]

H. Luo, X. Ling, X. Zhou, W. Shu, S. Wen, and D. Fan, “Enhancing or suppressing the spin Hall effect of light in layered nanostructures,” Phys. Rev. A 84(3), 033801 (2011).

[Crossref]

A. Alù, M. G. Silveirinha, A. Salandrino, and N. Engheta, “Epsilon-near-zero metamaterials and electromagnetic sources: Tailoring the radiation phase pattern,” Phys. Rev. B 75(15), 155410 (2007).

[Crossref]

H. Jiang, W. Liu, K. Yu, K. Fang, Y. Sun, Y. Li, and H. Chen, “Experimental verification of loss-induced field enhancement and collimation in anisotropic μ -near-zero metamaterials,” Phys. Rev. B 91(4), 045302 (2015).

[Crossref]

C. Imbert, “Calculation and experimental proof of the transverse shift induced by total internal reflection of a circularly polarized light beam,” Phys. Rev. D Part. Fields 5(4), 4 (1972).

[Crossref]

S. Feng, “Loss-induced omnidirectional bending to the normal in ϵ-near-zero metamaterials,” Phys. Rev. Lett. 108(19), 193904 (2012).

[Crossref]
[PubMed]

M. Onoda, S. Murakami, and N. Nagaosa, “Hall effect of light,” Phys. Rev. Lett. 93(8), 083901 (2004).

[Crossref]
[PubMed]

B. Wang and K. Huang, “Shaping the radiation pattern with mu and epsilon-near-zero metamaterials,” Prog. Electromagnetics Res. 106, 107–119 (2010).

[Crossref]

L. Benjamin, D. Murthy, and A. Corona-Chavez, “Half mode microwave filters based on epsilon near zero and mu near zero concepts,” Prog. Electromagnetics Res. 113, 379–393 (2011).

[Crossref]

M. Huang, J. Peng, and J. Yang, “Directive emission obtained by Mu and epsilon-near-zero metamaterials,” Radioengineering 18(2), 124–128 (2009).

X. Zhou, X. Ling, Z. Zhang, H. Luo, and S. Wen, “Observation of Spin Hall Effect in Photon Tunneling via Weak Measurements,” Sci. Rep. 4, 7388 (2014).

[Crossref]
[PubMed]

T. Tang, C. Li, and L. Luo, “Enhanced spin Hall effect of tunneling light in hyperbolic metamaterial waveguide,” Sci. Rep. 6, 30762 (2016).

[Crossref]
[PubMed]

X. Zhang and Y. Wu, “Effective medium theory for anisotropic metamaterials,” Sci. Rep. 5, 7892 (2015).

[Crossref]
[PubMed]

O. Hosten and P. Kwiat, “Observation of the spin Hall effect of light via weak measurements,” Science 319(5864), 787–790 (2008).

[Crossref]
[PubMed]