Add to ORKGPhase matching is a critical requirement for coherent nonlinear optical processes such as frequency conversion and parametric amplification. Phase mismatch prevents microscopic nonlinear sources from combining constructively, resulting in destructive interference and thus very low efficiency. We report the experimental demonstration of phase mismatch–free nonlinear generation in a zero-index optical metamaterial. In contrast to phase mismatch compensation techniques required in conventional nonlinear media, the zero index eliminates the need for phase matching, allowing efficient nonlinear generation in both forward and backward directions. We demonstrate phase mismatch–free nonlinear generation using intrapulse four-wave mixing, where we o...
Energy transfer between different modes and phase-matching relations are fundamental concepts in non...
We demonstrate phase-matched second-harmonic generation (SHG) from three-dimensional metamaterials c...
Three-dimensional (3D) metamaterials show the potential for realizing efficient nonlinear nanoscale ...
Metamaterials possess extraordinary linear optical properties never observed in natural materials su...
Metamaterials exhibit unconventional electromagnetic properties that cannot be found in nature, such...
We study pulsed second harmonic generation in metamaterials under conditions of significant absorpti...
The discovery of optical second harmonic generation in 1961 started modern nonlinear optics(1-3). So...
The present investigation is concerned with the study of pulsed second-harmonic generation under con...
peer reviewedEfficient nonlinear frequency conversion requires a phase matching condition to be sati...
Nonlinear optics focuses on the phenomena that arise when intense light interacts with matter. At lo...
Backward phase matching, which describes counterpropagating fundamental and harmonic waves in a nega...
Angle phase-matching in nonlinear optical (NLO) materials is critical for technological applications...
In the field of second harmonic (SH) generation most studies have been concerned with maximizing con...
Frequency conversion in nonlinear optical crystals is an effective means of generating coherent ligh...
We demonstrate a simple and scalable approach to increase conversion efficiencies of nonlinear metas...
Energy transfer between different modes and phase-matching relations are fundamental concepts in non...
We demonstrate phase-matched second-harmonic generation (SHG) from three-dimensional metamaterials c...
Three-dimensional (3D) metamaterials show the potential for realizing efficient nonlinear nanoscale ...
Metamaterials possess extraordinary linear optical properties never observed in natural materials su...
Metamaterials exhibit unconventional electromagnetic properties that cannot be found in nature, such...
We study pulsed second harmonic generation in metamaterials under conditions of significant absorpti...
The discovery of optical second harmonic generation in 1961 started modern nonlinear optics(1-3). So...
The present investigation is concerned with the study of pulsed second-harmonic generation under con...
peer reviewedEfficient nonlinear frequency conversion requires a phase matching condition to be sati...
Nonlinear optics focuses on the phenomena that arise when intense light interacts with matter. At lo...
Backward phase matching, which describes counterpropagating fundamental and harmonic waves in a nega...
Angle phase-matching in nonlinear optical (NLO) materials is critical for technological applications...
In the field of second harmonic (SH) generation most studies have been concerned with maximizing con...
Frequency conversion in nonlinear optical crystals is an effective means of generating coherent ligh...
We demonstrate a simple and scalable approach to increase conversion efficiencies of nonlinear metas...
Energy transfer between different modes and phase-matching relations are fundamental concepts in non...
We demonstrate phase-matched second-harmonic generation (SHG) from three-dimensional metamaterials c...
Three-dimensional (3D) metamaterials show the potential for realizing efficient nonlinear nanoscale ...