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.
This note covers the following topics:
Basic Principles, The electromagnetic spectrum, The Vector Model, NMR
excitation, Magnetization properties, Quadrature detection, The Chemical Shift,
Nuclear Shielding, Spin-spin coupling, Multi-dimensional NMR, Protein NMR.
This note covers the following topics: NMR and energy levels, The vector
model, Fourier transformation and data processing, How the spectrometer works, Product operators, Two-Dimensional NMR,
Relaxation, Phase cyling and gradient pulses.
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.
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.
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.
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: Mass Spectrometry,
Ultraviolet-Visible Spectroscopy, Infrared Spectroscopy, Nuclear Magnetic
Resonance Spectroscopy.