Multiphoton Processes in Organic Materials and their Application
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- Nombre de pages399
- PrésentationBroché
- Poids0.785 kg
- Dimensions17,0 cm × 24,0 cm × 2,0 cm
- ISBN978-2-8130-0051-4
- EAN9782813000514
- Date de parution11/04/2012
- ÉditeurArchives Contemporaines
Résumé
The book contains original contributions from leading
international scientists working in the field of multiphoton
absorptions and excitations and their practical applications.
From the first theoretical prediction of the phenomena at the
beginning of the nineteen thirties through the first practical
demonstration seen some thirty years later, the topic has today
evolved into a large branch of nonlinear optics.
The different chapters of the book treat this large research field comprehensively: from basic phenomena and their description, material design, synthesis, elaboration and optimisation, through experimental characterization techniques to practical applications such as optical power limiting, nano and microstructuration and photodynamic therapy. Although the contributions address almost exclusively organic materials, currently the group know to have the largest multiphoton transition cross sections whose properties can be tailored for targeted applications, the described characterization techniques as well as applications are universal and can be done with other materials.
The book is addressed not only to the researchers active in the field but also to graduate students, newcomers and development engineers interested in practical application of multiphoton induced effects.
The different chapters of the book treat this large research field comprehensively: from basic phenomena and their description, material design, synthesis, elaboration and optimisation, through experimental characterization techniques to practical applications such as optical power limiting, nano and microstructuration and photodynamic therapy. Although the contributions address almost exclusively organic materials, currently the group know to have the largest multiphoton transition cross sections whose properties can be tailored for targeted applications, the described characterization techniques as well as applications are universal and can be done with other materials.
The book is addressed not only to the researchers active in the field but also to graduate students, newcomers and development engineers interested in practical application of multiphoton induced effects.
The book contains original contributions from leading
international scientists working in the field of multiphoton
absorptions and excitations and their practical applications.
From the first theoretical prediction of the phenomena at the
beginning of the nineteen thirties through the first practical
demonstration seen some thirty years later, the topic has today
evolved into a large branch of nonlinear optics.
The different chapters of the book treat this large research field comprehensively: from basic phenomena and their description, material design, synthesis, elaboration and optimisation, through experimental characterization techniques to practical applications such as optical power limiting, nano and microstructuration and photodynamic therapy. Although the contributions address almost exclusively organic materials, currently the group know to have the largest multiphoton transition cross sections whose properties can be tailored for targeted applications, the described characterization techniques as well as applications are universal and can be done with other materials.
The book is addressed not only to the researchers active in the field but also to graduate students, newcomers and development engineers interested in practical application of multiphoton induced effects.
The different chapters of the book treat this large research field comprehensively: from basic phenomena and their description, material design, synthesis, elaboration and optimisation, through experimental characterization techniques to practical applications such as optical power limiting, nano and microstructuration and photodynamic therapy. Although the contributions address almost exclusively organic materials, currently the group know to have the largest multiphoton transition cross sections whose properties can be tailored for targeted applications, the described characterization techniques as well as applications are universal and can be done with other materials.
The book is addressed not only to the researchers active in the field but also to graduate students, newcomers and development engineers interested in practical application of multiphoton induced effects.