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20040128133400.0 |
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020716s2003 gw a b 001 0 eng |
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|a 2002029191
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|a 3540652256 (acid-free paper)
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|a DLC
|c DLC
|d DLC
|d OCoLC
|d OrLoB-B
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|a QC454.L3
|b D46 2003
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| 082 |
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|a 621.36/6
|2 21
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| 100 |
1 |
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|a Demtröder, W.
|0 http://id.loc.gov/authorities/names/n80132079
|1 http://viaf.org/viaf/261376093
|
| 245 |
1 |
0 |
|a Laser spectroscopy :
|b basic concepts and instrumentation /
|c Wolfgang Demtröder.
|
| 250 |
|
|
|a 3rd ed.
|
| 260 |
|
|
|a Berlin ;
|a New York :
|b Springer,
|c c2003.
|
| 300 |
|
|
|a xx, 987 p. :
|b ill. ;
|c 24 cm.
|
| 336 |
|
|
|a text
|b txt
|2 rdacontent
|0 http://id.loc.gov/vocabulary/contentTypes/txt
|
| 337 |
|
|
|a unmediated
|b n
|2 rdamedia
|0 http://id.loc.gov/vocabulary/mediaTypes/n
|
| 338 |
|
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|a volume
|b nc
|2 rdacarrier
|0 http://id.loc.gov/vocabulary/carriers/nc
|
| 440 |
|
0 |
|a Advanced texts in physics,
|x 1439-2674
|
| 504 |
|
|
|a Includes bibliographical references (p. [893]-977) and index.
|
| 505 |
0 |
0 |
|g 1.
|t Introduction --
|g 2.
|t Absorption and Emission of Light --
|g 2.1.
|t Cavity Modes --
|g 2.2.
|t Thermal Radiation and Planck's Law --
|g 2.3.
|t Absorption, Induced, and Spontaneous Emission --
|g 2.4.
|t Basic Photometric Quantities --
|g 2.5.
|t Polarization of Light --
|g 2.6.
|t Absorption and Emission Spectra --
|g 2.7.
|t Transition Probabilities --
|g 2.8.
|t Coherence Properties of Radiation Fields --
|g 2.9.
|t Coherence of Atomic Systems --
|g 3.
|t Widths and Profiles of Spectral Lines --
|g 3.1.
|t Natural Linewidth --
|g 3.2.
|t Doppler Width --
|g 3.3.
|t Collisional Proadening of Special Lines --
|g 3.4.
|t Transit-Time Broadening --
|g 3.5.
|t Homogeneous and Inhomogeneous Line Broadening --
|g 3.6.
|t Saturation and Power Broadening --
|g 3.7.
|t Spectral Line Profiles in Liquids and Solids --
|g 4.
|t Spectroscopic Instrumentation --
|g 4.1.
|t Spectrographs and Monochromators --
|g 4.2.
|t Interferometers --
|g 4.3.
|t Comparison Between Spectrometers and Interferometers --
|g 4.4.
|t Accurate Wavelength Measurements --
|g 4.5.
|t Detection of Light --
|g 4.6.
|t Conclusions --
|g 5.
|t Lasers as Spectroscopic Light Sources --
|g 5.1.
|t Fundamentals of Lasers --
|g 5.2.
|t Laser Resonators --
|g 5.3.
|t Spectral Characteristics of Laser Emission --
|g 5.4.
|t Experimental Realization of Single-Mode Lasers --
|g 5.5.
|t Controlled Wavelength Tuning of Single-Mode Lasers --
|g 5.6.
|t Linewidths of Single-Mode Lasers --
|g 5.7.
|t Tunable Lasers --
|g 5.8.
|t Nonlinear Optical Mixing Techniques --
|g 5.9.
|t Gaussian Beams --
|g 6.
|t Doppler-Limited Absorption and Fluorescence Spectroscopy with Lasers --
|g 6.1.
|t Advantages of Lasers in Spectroscopy --
|g 6.2.
|t High-Sensitivity Methods of Absorption Spectroscopy --
|g 6.3.
|t Direct Determination of Absorbed Photons --
|g 6.4.
|t Ionization Spectroscopy --
|g 6.5.
|t Optogalvanic Spectroscopy --
|g 6.6.
|t Velocity-Modulation Spectroscopy --
|g 6.7.
|t Laser Magnetic Resonance and Stark Spectroscopy --
|g 6.8.
|t Laser-Induced Fluorescence --
|g 6.9.
|t Comparison Between the Different Methods --
|g 7.
|t Nonlinear Spectroscopy --
|g 7.1.
|t Linear and Nonlinear Absorption --
|g 7.2.
|t Saturation of Inhomogeneous Line Profiles --
|g 7.3.
|t Saturation Spectroscopy --
|g 7.4.
|t Polarization Spectroscopy --
|g 7.5.
|t Multiphoton Spectroscopy --
|g 7.6.
|t Special Techniques of Nonlinear Spectroscopy --
|g 7.7.
|t Conclusion --
|g 8.
|t Laser Raman Spectroscopy --
|g 8.1.
|t Basic Considerations --
|g 8.2.
|t Experimental Techniques of Linear Laser Raman Spectroscopy --
|g 8.3.
|t Nonlinear Raman Spectroscopy --
|g 8.4.
|t Special Techniques --
|g 8.5.
|t Applications of Laser Raman Spectroscopy --
|g 9.
|t Laser Spectroscopy in Molecular Beams --
|g 9.1.
|t Reduction of Doppler Width --
|g 9.2.
|t Adiabatic Cooling in Supersonic Beams --
|g 9.3.
|t Formation and Spectroscopy of Clusters and Van der Waals Molecules in Cold Molecular Beams --
|g 9.4.
|t Nonlinear Spectroscopy in Molecular Beams --
|g 9.5.
|t Laser Spectroscopy in Fast Ion Beams --
|g 9.6.
|t Applications of FIBLAS --
|g 9.7.
|t Spectroscopy in Cold Ion Beams --
|g 9.8.
|t Combination of Molecular Beam Laser Spectroscopy and Mass Spectrometry --
|g 10.
|t Optical Pumping and Double-Resonance Techniques --
|g 10.1.
|t Optical Pumping --
|g 10.2.
|t Optical-RF Double-Resonance Technique --
|g 10.3.
|t Optical-Microwave Double Resonance --
|g 10.4.
|t Optical-Optical Double Resonance --
|g 10.5.
|t Special Detection Schemes of Double-Resonance Spectroscopy --
|g 11.
|t Time-Resolved Laser Spectroscopy --
|g 11.1.
|t Generation of Short Laser Pulses --
|g 11.2.
|t Measurement of Ultrashort Pulses --
|g 11.3.
|t Lifetime Measurement with Lasers --
|g 11.4.
|t Pump-and-Probe Technique --
|g 12.
|t Coherent Spectroscopy --
|g 12.1.
|t Level-Crossing Spectroscopy --
|g 12.2.
|t Quantum-Beat Spectroscopy --
|g 12.3.
|t Excitation and Detection of Wave Packets in Atoms and Molecules --
|g 12.4.
|t Optical Pulse-Train Interference Spectroscopy --
|g 12.5.
|t Photon Echoes --
|g 12.6.
|t Optical Nutation and Free-Induction Decay --
|g 12.7.
|t Heterodyne Spectroscopy --
|g 12.8.
|t Correlation Spectroscopy --
|g 13.
|t Laser Spectroscopy of Collision Processes --
|g 13.1.
|t High-Resolution Laser Spectroscopy of Collisional Line Broadening and Line Shifts --
|g 13.2.
|t Measurements of Inelastic Collision Cross Sections of Excited Atoms and Molecules --
|g 13.3.
|t Spectroscopic Techniques for Measuring Collision-Induced Transitions in the Electronic Ground State of Molecules --
|g 13.4.
|t Spectroscopy of Reactive Collisions --
|g 13.5.
|t Spectroscopic Determination of Differential Collision Cross Sections in Crossed Molecular Beams --
|g 13.6.
|t Photon-Assisted Collisional Energy Transfer --
|g 13.7.
|t Photoassociation Spectroscopy of Colliding Atoms --
|g 14.
|t New Developments in Laser Spectroscopy --
|g 14.1.
|t Optical Cooling and Trapping of Atoms --
|g 14.2.
|t Spectroscopy of Single Ions --
|g 14.3.
|t Optical Ramsey Fringes --
|g 14.4.
|t Atom Interferometry --
|g 14.5.
|t The One-Atom Maser --
|g 14.6.
|t Spectral Resolution Within the Natural Linewidth --
|g 14.7.
|t Absolute Optical Frequency Measurement and Optical Frequency Standards --
|g 14.8.
|t Squeezing --
|g 15.
|t Applications of Laser Spectroscopy --
|g 15.1.
|t Applications in Chemistry --
|g 15.2.
|t Environmental Research with Lasers --
|g 15.3.
|t Applications to Technical Problems --
|g 15.4.
|t Applications in Biology --
|g 15.5.
|t Medical Applications of Laser Spectroscopy --
|g 15.6.
|t Concluding Remarks.
|
| 650 |
|
0 |
|a Laser spectroscopy.
|0 http://id.loc.gov/authorities/subjects/sh85074785
|
| 650 |
|
7 |
|a Laser spectroscopy.
|2 fast
|0 http://id.worldcat.org/fast/fst00992831
|
| 903 |
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|a HeVa
|
| 035 |
|
|
|a (OCoLC)50253197
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| 929 |
|
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|a cat
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| 999 |
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|i e1bfbc43-8fb8-5aee-9ceb-11b87a5924f5
|s 960adb26-1c8c-54be-ae6d-70f5bda0f37d
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| 928 |
|
|
|t Library of Congress classification
|a QC454.L3 D46 2003
|l JCL
|c JCL-Sci
|i 4565717
|
| 927 |
|
|
|t Library of Congress classification
|a QC454.L3 D46 2003
|l JCL
|c JCL-Sci
|e CL27
|e CRERAR
|b 63436599
|i 7407567
|
