Add to ORKGSpatial modulation of a nonlinear optical process provides a versatile means for achieving phase-matching of the generated waves. This tutorial will introduce the general principles of this quasi-phase-matching technique and illustrate its benefits in a range of nonlinear optical materials and devices. <br/
Summary form only given. Quasi-phase-matching (QPM) by electric-field poling in ferro-electric mater...
Summary form only given. Quasi-phase-matching (QPM) by electric-field poling in ferro-electric mater...
We present a theoretical analysis of second-order nonlinear difference frequency generation (DFG) in...
The ability to fabricate nonlinear optical materials with periodic or aperiodic spatial modulation o...
This course provides an overview and grounding in the use of quasi-phase matched materials in nonlin...
This course provides an overview and grounding in the use of quasi-phase matched materials in nonlin...
This course provides an overview and grounding in the use of quasi-phase matched materials in nonlin...
We develop an effective numerical algorithm to design engineered quasi-phase-matching gratings in no...
The advent of quasi-phase-matched (QPM) materials has had a major impact on the performance of nonli...
We report a new approach to phase matching of nonlinear materials based on the free space multipass ...
We develop a rapid and efficient numeric technique for the design of arbitrary quasi-phase matched l...
It is well known that efficient energy transfer in nonlinear parametric optical processes such as ...
Summary form only given. Quasi-phase-matching (QPM) by electric-field poling in ferro-electric mater...
This thesis describes a series of theoretical and experimental studies into modifying the phasematch...
peer reviewedEfficient nonlinear frequency conversion requires a phase matching condition to be sati...
Summary form only given. Quasi-phase-matching (QPM) by electric-field poling in ferro-electric mater...
Summary form only given. Quasi-phase-matching (QPM) by electric-field poling in ferro-electric mater...
We present a theoretical analysis of second-order nonlinear difference frequency generation (DFG) in...
The ability to fabricate nonlinear optical materials with periodic or aperiodic spatial modulation o...
This course provides an overview and grounding in the use of quasi-phase matched materials in nonlin...
This course provides an overview and grounding in the use of quasi-phase matched materials in nonlin...
This course provides an overview and grounding in the use of quasi-phase matched materials in nonlin...
We develop an effective numerical algorithm to design engineered quasi-phase-matching gratings in no...
The advent of quasi-phase-matched (QPM) materials has had a major impact on the performance of nonli...
We report a new approach to phase matching of nonlinear materials based on the free space multipass ...
We develop a rapid and efficient numeric technique for the design of arbitrary quasi-phase matched l...
It is well known that efficient energy transfer in nonlinear parametric optical processes such as ...
Summary form only given. Quasi-phase-matching (QPM) by electric-field poling in ferro-electric mater...
This thesis describes a series of theoretical and experimental studies into modifying the phasematch...
peer reviewedEfficient nonlinear frequency conversion requires a phase matching condition to be sati...
Summary form only given. Quasi-phase-matching (QPM) by electric-field poling in ferro-electric mater...
Summary form only given. Quasi-phase-matching (QPM) by electric-field poling in ferro-electric mater...
We present a theoretical analysis of second-order nonlinear difference frequency generation (DFG) in...