2017
DOI: 10.1002/adma.201700754
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A Solution‐Processed Ultrafast Optical Switch Based on a Nanostructured Epsilon‐Near‐Zero Medium

Abstract: All the optical properties of materials are derived from dielectric function. In spectral region where the dielectric permittivity approaches zero, known as epsilon-near-zero (ENZ) region, the propagating light within the material attains a very high phase velocity, and meanwhile the material exhibits strong optical nonlinearity. The interplay between the linear and nonlinear optical response in these materials thus offers unprecedented pathways for all-optical control and device design. Here the authors demon… Show more

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Cited by 122 publications
(93 citation statements)
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“…As for optical modulation, an indispensable technology for modern optical communication, controlling optical properties of a material by changing its refractive index is a widely adopted pathway . The refractive index of a material, however, is temperature dependent, which implies a way for optical modulation mediated by thermal control.…”
Section: Comparison Of Different 2d Materials‐based Similar Devicesmentioning
confidence: 99%
“…As for optical modulation, an indispensable technology for modern optical communication, controlling optical properties of a material by changing its refractive index is a widely adopted pathway . The refractive index of a material, however, is temperature dependent, which implies a way for optical modulation mediated by thermal control.…”
Section: Comparison Of Different 2d Materials‐based Similar Devicesmentioning
confidence: 99%
“…However, their applications in integrating optics devices have always been hampered by the high optical losses due to interband transitions, large real component of their dielectric constant, and fixed carrier density . In the past few years, the search of low‐loss and widely tunable plasmonic media has led to the development of diverse nonmetallic plasmonic nanocrystals, such as copper chalcogenides, transparent conducting oxides, and oxygen‐deficient metal oxides . These nonmetallic plasmonic materials exhibit enormous advantages in device performance, design flexibility, and property tunability.…”
Section: Introductionmentioning
confidence: 99%
“…With pump‐probe experiments, we demonstrate broadband optically induced switching of unpatterned films in the transmission mode and the reflection mode, with a maximum reflectance change of 135% in the MIR region with a relaxation time of 45.6 ps for a pump fluence of 1.3 mJ cm −2 . This change in the reflectance with respect to pump power is significantly higher than previous demonstrations of optical modulation in switching platforms such as ENZ AZO films (40% for 4 mJ cm −2 ), ITO nanocrystals (150% at 18.16 mJ cm −2 ), and even patterned metasurfaces (35% for 0.40 mJ cm −2 ) . We identify the possible carrier relaxation mechanisms for photoexcited carriers in CdO and show that the relaxation time decreases with increasing doping levels.…”
Section: Introductionmentioning
confidence: 62%