IR and Raman Spectroscopy : Fundamental Processing
Siegfried. Wartewig
Bok Engelsk 2006 · Electronic books.
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| Utgitt | Hoboken : : Wiley, , 2006.
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| Omfang | 1 online resource (193 p.)
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| Opplysninger | Description based upon print version of record.. - IR and Raman Spectroscopy; Contents; Preface; Acknowledgments; 1 Introduction; 2 Your Personal "OPUS Workstation"; 2.1 Technical Requirements; 2.2 Installing OPUS; 2.3 Starting OPUS; 3 OPUS Basics; 3.1 Loading and Selecting a File; 3.2 The Browser Window; 3.3 The Spectrum Window; 3.4 The Report Window; 3.5 Choosing a Spectral Range; 3.6 The Toolbars; 4 Basic Principles of Vibrational Spectroscopy; 4.1 Molecular Vibrations; 4.2 The Infrared Spectrum; 4.3 The Raman Spectrum; 5 Fourier Transform Technique; 5.1 The Michelson Interferometer; 5.2 Advantages of Fourier Transform Spectroscopy. - 10.19 Symmetric Fourier Transformation10.20 Abscissa Conversion; 10.21 Averaging of Spectra; 10.22 Merging Spectra Ranges; 11 Evaluating; 11.1 Curve Fit; 11.1.1 Band Parameters; 11.1.2 Band Shape; 11.1.3 Baseline; 11.1.4 Band List; 11.1.5 Algorithm; 11.1.6 Status Line; 11.1.7 Max Iter. Time (s); 11.1.8 Auto Fit; 11.1.9 Save Report; 11.1.10 Save Peaks and Reps; 11.1.11 Some Examples of Curve Fitting; 11.1.11.1 Finding the Shape of a Single Band; 11.1.11.2 Decomposition of Two Overlapping Bands; 11.1.11.3 Decomposition of a Complex Spectral Feature; 11.1.12 Theoretical Background. - 10.9.3 Conversion to ATR Spectra: AB, TR → ATR10.9.4 Conversion to Absorbance Spectra: ATR → AB; 10.9.5 Taking the Logarithm of Spectra: Refl → lgRefl; 10.9.6 Conversion of Spectra in Logarithms: lgRefl → Refl; 10.9.7 Conversion of Single Channel Raman Spectra: ScSm → Raman; 10.9.8 Conversion of Raman Spectra: Raman → ScSm; 10.10 Smooth; 10.11 Derivative; 10.12 Wavenumber Calibration; 10.13 Raman Correction; 10.14 Blackbody; 10.15 Conversion from Interferogram to Spectrum; 10.16 Inverse Fourier Transformation; 10.17 Post Zerofilling; 10.18 Fourier Self Deconvolution. - 11.1.12.1 General Procedure. - 5.2.1 Connes Advantage5.2.2 Jacquinot Advantage; 5.2.3 Fellget Advantage; 5.3 Discrete Fourier Transformation; 5.3.1 Picket Fence Effect: Zerofilling; 5.3.2 Aliasing; 5.4 Effect of the Finite Record Length: Leakage and Apodization; 5.5 Phase Correction; 5.6 Acquisition; 5.7 Raman Spectroscopy: Interferometer versus Grating Technique; 6 Files; 6.1 Loading a File; 6.2 Unloading a File; 6.3 Undo Changes; 6.4 Deleting Data Blocks; 6.5 Scan and Find OPUS Files; 6.6 Clone Entry and Clone Original; 6.7 Add Comment; 6.8 Open; 6.9 Printing; 6.10 Print Preview; 6.11 Print Setup; 7 Edit. - 7.1 Edit Parameter7.2 Information Input; 7.3 Creating an Information Mask; 7.4 Copy; 8 View; 8.1 Toolbars; 8.2 Status Bar; 8.3 Browser; 9 Window; 9.1 New Spectrum Window; 9.2 New Report Window; 9.3 Cascade and Tile Windows; 10 Manipulating; 10.1 Baseline Correction; 10.2 Spectrum Subtraction; 10.3 Conversion of IR Spectra; 10.4 Straight Line Generation; 10.5 Spectrum Calculator; 10.6 Cut; 10.7 Normalization; 10.8 Make Compatible; 10.9 Spectrum Conversion; 10.9.1 Conversion to Kubelka-Munk: AB, TR, REFL → KM; 10.9.2 Conversion to Reflectance Spectra: KM → REFL. - An introduction to practical IR and Raman spectroscopy.This interactive course shows newcomers the decisive and central steps in IR and Raman spectroscopy, together with their processing. Using the latest version of the packaged BRUKER software, users can manipulate the data to meet their own special requirements for further evaluation, allowing them to do without automatic processing or expert help. Furthermore, the CD-ROM contains a comprehensive library of spectra for comparing data results with model compounds.Unique in its successful interplay of text, software and pre-prepared da
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| Emner | Infrared spectroscopy.
Raman spectroscopy. Analytical Chemistry Chemistry Vis mer... IR-spektroskopi
Infrarød spektroskopi Physical Sciences & Mathematics Ramanspektroskopi infrarød raman spektroskopi spektra |
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| Dewey | |
| ISBN | 352730245X
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