Modern Luminescence: From Fundamental Concepts to Materials and Applications, Volume One, Concepts and Luminescence is a multivolume work that reviews the fundamental principles, properties and applications of luminescent materials. Topics addressed include key concepts of luminescence, with a focus on important characterization techniques to understand a wide category of luminescent materials. The most relevant luminescent materials, such as transition metals, rare-earth materials, actinide-based materials, and organic materials are discussed, along with emerging applications of luminescent…mehr
Modern Luminescence: From Fundamental Concepts to Materials and Applications, Volume One, Concepts and Luminescence is a multivolume work that reviews the fundamental principles, properties and applications of luminescent materials. Topics addressed include key concepts of luminescence, with a focus on important characterization techniques to understand a wide category of luminescent materials. The most relevant luminescent materials, such as transition metals, rare-earth materials, actinide-based materials, and organic materials are discussed, along with emerging applications of luminescent materials in biomedicine, solid state devices, and the development of hybrid materials.
This book is an important introduction to the underlying scientific concepts needed to understand luminescence, such as atomic and molecular physics and chemistry. Other topics explored cover the latest advances in materials characterization methods, such as Raman spectroscopy, ultrafast spectroscopy, nonlinear spectroscopy, and more. Finally, there is a focus on the materials physics of nanophotonics.
Produktdetails
Produktdetails
Woodhead Publishing Series in Electronic and Optical Materials
Dr. Surender Kumar Sharma is an Associate Professor in Physics at the Central University of Punjab, Bathinda, India. Prior to joining his current university, he worked as an Assistant Professor at Department of Physics, Federal University of Maranhao, Brazil. He has received his Ph.D. in Physics with specialization in Materials Science from Himachal Pradesh University, Shimla, India in collaboration with Inter University of Accelerator Centre, New Delhi. He received the FAPEMA Senior researcher award in 2015. His research interests include magnetic nanohybrids, luminescent nanomaterials, their synthesis, characterization and utilization in magnetic and biomedical applications.
Dr. Daniel Jaque Garcia is working as Professor in the Department of Materials Physics Autonomous University of Madrid, Spain since from 2007. He has received his D. Sc. in Physics from Autonomous University of Madrid, Spain in 1999. His current research interests include: Photonics, Spectroscopy and Nanotechnology. He is the author of more than 350 International peer reviewed papers. He has presented several invited talks in conferences and universities/institutes; and supervised more than 10 PhD students.
Inhaltsangabe
Unit 1: Atomic Physics 1. Review of Atomic Physics and Quantum theory 2. Quantum Theory of Many electron atoms and Energy levels 3. Fine Structure in Atomic Spectra: Electron Spin and Energy level interpretation
Unit 2: Molecular Physics and Chemistry 4. Chemistry of Excited Molecules 5. Raman spectroscopy and Interpretation of Energy levels 6. Ultrafast spectroscopy and exciton dynamics 7. Near Field luminescence and microscopy 8. Semiconductor organic molecules
Unit 3: Laser Physics and New Lights 9. Nonlinear spectroscopy 10. Scopes of Lasers in Spectroscopy
Unit 4: Dynamics of Nanophotonics 11. Fundamentals of Light-Matter Interactions 12. Nanocontrol of Excitation and Emission Mechanism 13. Nanophotonics in Modern Plasmonic and Nanolasers 14. Physics of Photonic crystals and Applications
Unit 5: Experimental Techniques 15. Electron transitions and exploration of energy levels with energy transfer 16. Spectroscopic Instrumentation I
Unit 1: Atomic Physics 1. Review of Atomic Physics and Quantum theory 2. Quantum Theory of Many electron atoms and Energy levels 3. Fine Structure in Atomic Spectra: Electron Spin and Energy level interpretation
Unit 2: Molecular Physics and Chemistry 4. Chemistry of Excited Molecules 5. Raman spectroscopy and Interpretation of Energy levels 6. Ultrafast spectroscopy and exciton dynamics 7. Near Field luminescence and microscopy 8. Semiconductor organic molecules
Unit 3: Laser Physics and New Lights 9. Nonlinear spectroscopy 10. Scopes of Lasers in Spectroscopy
Unit 4: Dynamics of Nanophotonics 11. Fundamentals of Light-Matter Interactions 12. Nanocontrol of Excitation and Emission Mechanism 13. Nanophotonics in Modern Plasmonic and Nanolasers 14. Physics of Photonic crystals and Applications
Unit 5: Experimental Techniques 15. Electron transitions and exploration of energy levels with energy transfer 16. Spectroscopic Instrumentation I
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