This note covers the following topics: Introduction to LIBS, Physics of Laser Induced Breakdown, formation and evolution of Laser Plasmas, Components of LIBS: Lasers, Optics and Detection, Spectrochemical Analysis using Laser Plasma Excitation -Analysis of gases, liquids, solids and particles, Double pulse LIBS- Resonance Enhanced LIBS, LIF-LIBS and Review of the most recent literature.
Author(s): Prof. Dr. Serife H. Yalc
The main focus of this note is the various forms of optical spectroscopy, including rotational, vibrational and electronic spectroscopy, as well as a brief look at photoelectron spectroscopy and lasers. The note finishes with an introduction to radiofrequency spectroscopy techniques, including nuclear magnetic resonance and electron spin resonance. The purpose of this note is to provide an advanced level undergraduate student in Chemistry or Physics with a general overview of molecular spectroscopy. Specifically, the underlying principles of spectroscopy are examined using quantum mechanics, the interaction of light and matter, and group theory as starting points.
Author(s): Rob Schurko
This note covers the following topics: Electromagnetic spectrum, Basic 1H NMR, Combining NMR with other spectroscopic methods to solve structure problems - IR, UV, MS, Carbon-13 NMR, Proton Chemical Shifts, Coupling Constants involving carbon, 2D NMR, Relaxation, Multinuclear NMR, Dynamic NMR, Measurement of conformational and chemical exchange rates.
Author(s): Hans J. Reich
Magnetic Resonance Spectroscopy is a unique tool to probe the biochemistry in vivo providing metabolic information non-invasively. In this book, topics of MRS both relevant to the clinic and also those that are beyond the clinical arena are covered. The book consists of two sections. The first section is entitled 'MRS inside the clinic' and is focused on clinical applications of MRS while the second section is entitled 'MRS beyond the clinic' and discusses applications of MRS in other academic fields.
Author(s): Dong-Hyun Kim
The main aim of this book is to cover all major topics which are required to equip scholars with the recent advancement in this field. The book is divided into 12 chapters with an emphasis on specific topics.
Author(s): Muhammad Akhyar Farrukh
This note explains the Principles Behind Different Spectroscopic Techniques and propose the expected Spectroscopic Features Of Organic Molecules. Topics covered includes: UV-VIS Spectroscopy, IR Spectroscopy, C.A.T, NMR Spectroscopy, Mass Spectroscopy, Practice in Structure Determination.
Author(s): Prof. Yenesew Abiy
This note covers the following topics: Coherent Spectroscopy and the Nonlinear Polarization, Diagrammatic Perturbation Theory, Third-Order onlinear Spectroscopy, Characterizing Fluctuations with Nonlinear Spectroscopy, Introduction and Nonlinear Polarization, Diagrammatic Perturbation Theory, Third-Order and Two-Dimensional Spectroscopy, Fluctuations in Nonlinear and 2D Spectroscopy, Two-dimensional Spectroscopy.
Author(s): The University of Chicago
This note covers the following topics: Theory of point groups, Elementary quantum chemistry, Electromagnetic radiation, Spectra of atoms, Spectrophotometry, Luminescensce spectroscopy, Electron spectroscopy, Vibrational spectroscopy, IR methods, Near infrared spectroscopy, Raman spectroscopy and Rotational spectroscopy.
Author(s): Matti Hotokka
This note describes the following topics: Spectroscopy: an historic journey, Quantum Mechanics, Group theory, Electromagnetic Radiation, Interaction radiation-Matter, Elastic and Inelastic Scattering, Rotational and vibrational absortion, Electronic spectroscopy, Lasers and non linear phenomena, Magnetic spectroscopy.
Author(s): Adelino Galvao
This informative and state-of-the art book on Infrared Spectroscopy in Life sciences designed for researchers, academics as well as for those working in industry, agriculture and in pharmaceutical companies features 20 chapters of applications of MIRS and NIRS in brain activity and clinical research. Topics covered includes: Infrared Spectroscopy in Life and Biomedical Sciences, Use of Near-Infrared Spectroscopy in the Management of Patients in Neonatal Intensive Care Units,Effects of Sleep Debt on Cognitive Performance and Prefrontal Activity in Humans, Applications of Near Infrared Spectroscopy in Neurorehabilitation, Using NIRS to Investigate Social Relationship in Empathic Process.
Author(s): Theophile Theophanides
This note covers the following topics: Interaction of radiation and matter, Types Of Optical Instruments, Various Relaxation Modes, Phosphorescence , Fluorescence , PMT: Photomultiplier Tubes, Infrared Spectral Ranges, Dessicator for IR Cell Storage, Assembling a Transmission Cell, Effect of Refractive Index (RI) and Angle of Incidence , Sample cells and optical path length.
Author(s): Dr. Ngee-Sing Chong
This book is divided into five sections including General Spectroscopy, Advanced Spectroscopy, Nano Spectroscopy, Organic Spectroscopy, and Physical Spectroscopy which cover topics from basic to advanced levels which will provide a good source of learning for teaching and research purposes.
Author(s): Muhammad Akhyar Farrukh
This is a great book from Indian author, Shatendra K. Sharma. The book consists of selected chapters on the recent applications of x-ray spectroscopy that are of great interest to the scientists and engineers working in the fields of material science, physics, chemistry, astrophysics, astrochemistry, instrumentation, and techniques of x-ray based characterization. The chapters have been grouped into two major sections based upon the techniques and applications.
Author(s): Shatendra K. Sharma
This is an open source book from Intechopen.The infrared and Raman spectroscopy have applications in numerous fields, namely chemistry, physics, astronomy, biology, medicine, geology, mineralogy etc. This book provides some examples of the use of vibrational spectroscopy in supramolecular chemistry, inorganic chemistry, solid state physics, but also in the fields of molecule-based materials or organic-inorganic interfaces.
Author(s): Dominique de Caro
The note will provide a valuable theoretical introduction and an overview of modern topics in spectroscopy, which are of current interest and importance in Semiconductor Industry and Biomedicine.
Author(s): Andrei Sirenko
This note covers the following topics: Electronic structure of atoms, Atoms and radiation, Selection rules, Atomic applications, Rotational spectroscopy, Vibrational spectroscopy, Electronic spectroscopy, Molecular processes and Molecular applications.
Author(s): Geoffrey A. Blake
This note covers the following topics: introduction to spectroscopy, classical model of spectroscopy, time and frequency domain spectroscopy, principles for describing molecular spectroscopy, vibrational and rotational spectroscopy, electronic spectroscopy, nitrogen scission with molybdenum complex, magnetic resonance spectroscopy, supplemental magnetic resonance.
This note covers the following topics: Introduction to Surface Processes, Surfaces in Vacuum: UHV Techniques, Techniques for Examining Surfaces, Electric and Magnetic Processes at Metal Surfaces, Electronic and Optical Processes at Semiconductor Surfaces, Surface Processes in Adsorption and Surface Processes in Epitaxial Growth.
Author(s): John A. Venables
This note covers the following topics: Mass Spectrometry, Ultraviolet-Visible Spectroscopy, Infrared Spectroscopy, Nuclear Magnetic Resonance Spectroscopy.
Author(s): William Reusch
This note covers the following topics: The Mathematics of NMR, Spin Physics, NMR Spectroscopy , Fourier Transforms, Pulse Sequences, NMR Hardware, Carbon-13 NMR, 2-D Techniques, Advanced Spectroscopic Techniques.
Author(s): Joseph P. Hornak