Atomic, Molecular, and Optical Physics: Atoms and MoleculesCombined with the other two volumes, this text is a comprehensive treatment of the key experimental methods of atomic, molecular, and optical physics, as well as an excellent experimental handbook for the field. Thewide availability of tunable lasers in the past several years has revolutionized the field and lead to the introduction of many new experimental methods that are covered in these volumes. Traditional methods are also included to ensure that the volumes will be a complete reference source for the field. |
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Page 16
... target containing the sample material to temperatures up to 2500 K in times of the order of 10 ns. The energy of the desorption pulse may be controlled. Above some threshold, ions are produced, but below the threshold, neutral atoms are ...
... target containing the sample material to temperatures up to 2500 K in times of the order of 10 ns. The energy of the desorption pulse may be controlled. Above some threshold, ions are produced, but below the threshold, neutral atoms are ...
Page 41
... target in the throat of a supersonic expansion has also become a common technique for generating jet-cooled metal and semiconductor clusters [92]. Several nozzle designs have been described, employing metal rods [62], disks [93], or ...
... target in the throat of a supersonic expansion has also become a common technique for generating jet-cooled metal and semiconductor clusters [92]. Several nozzle designs have been described, employing metal rods [62], disks [93], or ...
Page 49
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Page 51
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Page 52
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Contents
1 | |
21 | |
Chapter 3 Fast Beam Sources | 49 |
Chapter 4 Vapor Cells and Heat Pipes | 67 |
Chapter 5 Free Radical Sources | 85 |
Chapter 6 Sources of Metastable Atoms and Molecules | 95 |
Chapter 7 Production of Rydberg Atoms | 115 |
Chapter 8 Laser Cooling and Trapping of Neutral Atoms | 129 |
Chapter 12 Excited Level Lifetime Measurements | 217 |
Chapter 13 DopplerFree Spectroscopy | 255 |
Chapter 14 Microwave Spectroscopy | 273 |
Chapter 15 Fast Beam Spectroscopy | 301 |
Chapter 16 QuantumBeat LevelCrossing and Anticrossing Spectroscopy | 325 |
Chapter 17 Atom Interferometry | 341 |
Chapter 18 Classical Spectroscopy | 363 |
Chapter 19 Pulsed Laser Raman Spectroscopy of Dynamic Systems | 393 |
Other editions - View all
Atomic, Molecular, and Optical Physics: Atoms and Molecules, Part 2 F. B. Dunning,Randall G. Hulet No preview available - 1996 |
Common terms and phrases
absorption Academic Press angle aperture atomic beam beam splitter branching fraction cathode cell charge exchange Chem collimated collisions cooling cross section density detection detector diffraction discharge distribution Doppler Doppler shift dye laser effects efficiency energy excitation expansion experimental Fabry–Perot fast beam filter fluorescence flux frequency grating ground-state heat pipe oven hyperfine hyperfine structure Instrum intensity interaction interferometer ion beam ionization laser beam laser cooling Lett lifetime measurements light magnetic field metastable method microwave molecular beam molecules neutral nozzle observed optical pumping Penning ionization photon Phys Physics polarized population pressure produced pulse quantum radiation Raman Raman scattering region resonance Rydberg Rydberg atoms sample saturated absorption scattering shift shown in Figure signal slit spatial spectral spectrometer spectroscopy sublevels Suenram supersonic surface target techniques temperature thermal transition trap tunable two-photon typically vapor velocity wave wavelength width