Add to ORKGWe investigated efficient surface-emitting second-harmonic-generation devices in poled polymers, using a 4-dimethylamino-4\u27-nitrostilbene side-chain polymer. The investigation included characterization of the linear and nonlinear optical properties of the polymer, design of efficient surface-emitting second-harmonic-generation devices based on poled polymers, development of an efficient in-plane poling technique, and demonstration of surface-emitting second-harmonic generation in poled polymers. As a result, strong field inplane parallel poling was successfully performed with poling fields over 300 V/mu m, which led to a large nonlinearity of 150 pm/V at 1064 nm (near resonance). A thick cover layer and a highly resistive substrate were ...
The conditions essential for high field, in-plane poling were investigated for nonlinear optical (NL...
The conditions essential for high field, in-plane poling were investigated for nonlinear optical (NL...
Modal dispersion phase-matched second harmonic generation is demonstrated in polymer-based waveguide...
We investigated efficient surface-emitting second-harmonic-generation devices in poled polymers, usi...
Quasi-phase matched (QPM) surface emitting second harmonic generation was demonstrated with nonlinea...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
Second harmonic generation via counter propagating beams was demonstrated in poled polymer channel w...
Second harmonic generation via counter propagating beams was demonstrated in poled polymer channel w...
Plane-parallel poled, low loss, channel waveguides are fabricated with a large poling field (200 V/μ...
Poled polymers are an exciting class of materials for second-order and third-order-like (cascading) ...
Poled polymers are an exciting class of materials for second-order and third-order-like (cascading) ...
We demonstrate surface emitted second harmonic generation due to mixing of counter propagating waves...
The conditions essential for high field, in-plane poling were investigated for nonlinear optical (NL...
The conditions essential for high field, in-plane poling were investigated for nonlinear optical (NL...
Modal dispersion phase-matched second harmonic generation is demonstrated in polymer-based waveguide...
We investigated efficient surface-emitting second-harmonic-generation devices in poled polymers, usi...
Quasi-phase matched (QPM) surface emitting second harmonic generation was demonstrated with nonlinea...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
New multilayer polymer waveguides have been introduced with inverted nonlinear layers for efficient ...
Second harmonic generation via counter propagating beams was demonstrated in poled polymer channel w...
Second harmonic generation via counter propagating beams was demonstrated in poled polymer channel w...
Plane-parallel poled, low loss, channel waveguides are fabricated with a large poling field (200 V/μ...
Poled polymers are an exciting class of materials for second-order and third-order-like (cascading) ...
Poled polymers are an exciting class of materials for second-order and third-order-like (cascading) ...
We demonstrate surface emitted second harmonic generation due to mixing of counter propagating waves...
The conditions essential for high field, in-plane poling were investigated for nonlinear optical (NL...
The conditions essential for high field, in-plane poling were investigated for nonlinear optical (NL...
Modal dispersion phase-matched second harmonic generation is demonstrated in polymer-based waveguide...