NATO 'Science for Peace' Project (Years 2000-2005). Scope: A principal goal of the project was the development of novel optical (holographic) measurement techniques and their implementation into a novel diagnostic devices for nondestructive characterization of semiconducting crystals and structures. It was foreseen to develop the technique of dynamic holography, exploring nonresonant mechanisms of optical nonlinearities in a photoexcited semiconductor. The developed techniques and the prototypes of device were to be adapted for diagnostics of semiconductor materials, important for industry and market of semiconductor electronics and optoelectronics.
DEVELOPMENT OF NOVEL OPTICAL TECHNIQUES AND DEVICES FOR NON-DESTRUCTIVE CHARACTERIZATION OF SEMICONDUCTING COMPOUNDS AND STRUCTURES (SfP 974476)
LOVERGINE, Nicola;
2004-01-01
Abstract
NATO 'Science for Peace' Project (Years 2000-2005). Scope: A principal goal of the project was the development of novel optical (holographic) measurement techniques and their implementation into a novel diagnostic devices for nondestructive characterization of semiconducting crystals and structures. It was foreseen to develop the technique of dynamic holography, exploring nonresonant mechanisms of optical nonlinearities in a photoexcited semiconductor. The developed techniques and the prototypes of device were to be adapted for diagnostics of semiconductor materials, important for industry and market of semiconductor electronics and optoelectronics.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
