Overview

The book explores theoretical foundations of Raman spectroscopy, looking into key concepts such as parameters, perturbation theories, normal vibration modes, and the application of group theory to specific structures. It also examines modifications of the Raman technique, particularly in the Surface Enhanced Raman Scattering (SERS) modality. Practical aspects of both Raman and SERS spectroscopy are covered in detail. Additionally, the book presents the characteristic Raman spectra of various materials measured by the author, along with a basic analysis of their molecular structures. This comprehensive approach ensures that readers gain a thorough understanding of both the theoretical and practical elements of Raman spectroscopy. Developed from the author's notes, research, and over a decade of teaching the Raman spectroscopy course, this book underscores the vital importance of spectroscopies in both academia and industry. These techniques are invaluable in the analytical field, offering powerful tools for the study and diagnosis of materials due to their capabilities for both quantitative and qualitative applications. Optical spectroscopies, inherently non-invasive, have gained popularity due to advancements in monochromatic sources and high-performance, high-resolution detectors, resulting in more versatile and portable instruments. Additionally, new methodologies for data acquisition and statistical analysis have been developed, reducing acquisition time and increasing the signal-to-noise ratio. Innovations in acquisition techniques, such as SERS, enable the acquisition of high-quality spectra from sample concentrations far below those required by conventional methods. The book offers a comprehensive introduction to one of the fastest-growing optical techniques, driven by advancements in optoelectronic and control devices. Aimed at final-year students in science and engineering, the text features clear mathematical explanations and explicit steps to help readers grasp the scope and applicability of the mathematical concepts involved. It serves as a foundational guide, equipping readers with the essential knowledge needed to tackle more complex models found in specialized literature. 

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9783031775505

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Dr. Carlos Vargas Hernandez has been a professor at the National University of Colombia since 1995, specializing in physics, electronics, and optical spectroscopies. Throughout his tenure, he has directed undergraduate, master's, and doctoral students, fostering their academic and professional growth. He has also served as a Visiting Professor at the University of Texas at San Antonio and the University of Toronto in Canada. Dr. Vargas Hernandez's research primarily focuses on the optical and optoelectronic properties of materials and the synthesis of new materials through various chemical and physical methods for applications in biotechnology and optoelectronics. He has authored several books and numerous articles related to his research and has secured patents for biotechnological applications. He holds a bachelor's degree and a master's degree in Physics from the National University of Colombia and earned his PhD from CINVESTAV-IPN in Mexico. Additionally, he studied electronic engineering at the Autonomous University of Manizales and obtained both a master's degree and a doctorate in Engineering, with a focus on Industrial Automation, from the National University of Colombia, Manizales campus. Throughout his career, Dr. Vargas Hernandez has developed and implemented projects in solar energy and photovoltaic systems for residential and rural use, including their sizing, design, and the implementation of automation and control systems.

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