Introduction to laser spectroscopy [[electronic resource] /] / Halina Abramczyk |
Autore | Abramczyk Halina |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier, 2005 |
Descrizione fisica | 1 online resource (331 p.) |
Disciplina | 535.8/4 |
Soggetto topico |
Laser spectroscopy
Spectrum analysis |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-62176-1
9786610621767 0-08-045525-5 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
copyright; front matter; Acknowledgements; Preface; table of contents; body; 1. Basic Physics of Lasers; 1.1. SPONTANEOUS AND STIMULATED TRANSITIONS. EINSTEIN COEFFICIENTS. PROPERTIES OF STIMULATED RADIATION; 1.2. LASER OPERATION BASICS; 1.3. POPULATION INVERSION; 1.4. AMPLIFICATION AND SATURATION; REFERENCES 1; 2. Distribution of the Electromagnetic Field in the Optical Resonator; 2.1. LONGITUDINAL MODES; 2.2. QUALITY FACTOR OF RESONATOR RELATIONSHIP BETWEEN LINEWIDTH OF STIMULATED EMISSION AND RESONATOR QUALITY FACTOR; 2.3. TRANSVERSE MODES; REFERENCES 2
3. Generation of Ultrashort Laser Pulses 3.1. MODELOCKING. RELATIONSHIP BETWEEN LINE WIDTH OF STIMULATED EMISSION AND PULSE DURATION; 3.2. METHODS OF MODELOCKING. ACTIVE AND PASSIVE MODELOCKING; 3.3. Q-SWITCHING; 3.4. CAVITY DUMPING; REFERENCES 3; 4. Lasers; 4.1. RUBY LASER; 4.2. MOLECULAR GAS LASERS FROM THE INFRARED REGION; 4.2.1. Lasers Operating on Rotational Transitions; 4.2.2. Lasers Operating on Vibrational-Rotational Transitions: CO2 and CO; 4.3. CHEMICAL LASERS; 4.4. SOLID-STATE LASERS; 4.4.1. Neodymium Laser and other Rare-Earth Lasers 4.4.2. Solid- State Tunable Lasers (Vibronic Lasers)4.4.3. Fiber Lasers; 4.5. GAS LASERS FOR THE VISIBLE RANGE; 4.5.1. Helium-Neon Laser; 4.5.2. Ion-Gas Lasers. Argon and Krypton Lasers; 4.6. LIQUID DYE LASERS; 4.7. GAS LASERS FOR THE ULTRAVIOLET RANGE; 4.7.1. Excimer Lasers; 4.7.2. Nitrogen Laser; 4.8. DIODE LASERS; 4.8.1. Intrinsic Semiconductors. Doped Semiconductors. Junction; 4.8.2. Diode Lasers; REFERENCES 4; 5. Nonlinear Optics; 5.1. SECOND ORDER NONLINEAR PHENOMENA; 5.2. PHASE MATCHING METHODS; 5.3. PRACTICAL ASPECTS OF THE SECOND HARMONIC GENERATION 5.3.1. SHG for Pico- and Femtosecond Pulses 5.4. PARAMETRIC OSCILLATOR; 5.5. THE THIRD ORDER NONLINEAR PROCESSES; 5.5.1. Stimulated Raman Scattering; 5.5.2. Coherent Anti-Stokes Raman Scattering (CARS); 5.5.3. The Other Techniques of Nonlinear Stimulated Raman Scattering; 5.6. NONLINEAR DISPERSION PHENOMENA AFFECTING PICOSECOND AND FEMTOSECOND PULSE DURATION - GROUP VELOCITY DISPERSION (GVD) AND SELF PHASE MODULATION (SPM); REFERENCES 5; 6. Pulse Amplification; 6.1. INTRODUCTION; 6.2. THEORETICAL BACKGROUND; 6.3. DESIGN FEATURES OF AMPLIFIERS; 6.4. REGENERATIVE AMPLIFIER 6.4.1. The Pockets Cell 6.5. CHIRPED PULSE AMPLIFICATION (CPA); REFERENCES 6; 7. The Measurement of Ultrashort Laser Pulses; 7.1. AUTOCORRELATION TECHNIQUES; 7.2. FROG TECHNIQUES; REFERENCES 7; 8. Selected Methods of Time-Resolved Laser Spectroscopy; 8.1. FLUORESCENCE DECAY; 8.2. THE PUMP-PROBE METHOD; 8.3. CARS AS A TIME-RESOLVED METHOD; 8.4. PHOTON ECHO; 8.4.1. Spin Echo in NMR; 8.4.2. Optical Resonance; 8.4.3. Quantum-Classical Description of the Photon Echo; 8.4.4. Practical Advantages of Photon Echo Applications; 8.5. QUANTUM BEATS; 8.5.1. Quantum Description 8.5.2. Examples of Quantum Beats Applications |
Record Nr. | UNINA-9910457297603321 |
Abramczyk Halina
![]() |
||
Amsterdam ; ; Boston, : Elsevier, 2005 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Introduction to laser spectroscopy [[electronic resource] /] / Halina Abramczyk |
Autore | Abramczyk Halina |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier, 2005 |
Descrizione fisica | 1 online resource (331 p.) |
Disciplina | 535.8/4 |
Soggetto topico |
Laser spectroscopy
Spectrum analysis |
ISBN |
1-280-62176-1
9786610621767 0-08-045525-5 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
copyright; front matter; Acknowledgements; Preface; table of contents; body; 1. Basic Physics of Lasers; 1.1. SPONTANEOUS AND STIMULATED TRANSITIONS. EINSTEIN COEFFICIENTS. PROPERTIES OF STIMULATED RADIATION; 1.2. LASER OPERATION BASICS; 1.3. POPULATION INVERSION; 1.4. AMPLIFICATION AND SATURATION; REFERENCES 1; 2. Distribution of the Electromagnetic Field in the Optical Resonator; 2.1. LONGITUDINAL MODES; 2.2. QUALITY FACTOR OF RESONATOR RELATIONSHIP BETWEEN LINEWIDTH OF STIMULATED EMISSION AND RESONATOR QUALITY FACTOR; 2.3. TRANSVERSE MODES; REFERENCES 2
3. Generation of Ultrashort Laser Pulses 3.1. MODELOCKING. RELATIONSHIP BETWEEN LINE WIDTH OF STIMULATED EMISSION AND PULSE DURATION; 3.2. METHODS OF MODELOCKING. ACTIVE AND PASSIVE MODELOCKING; 3.3. Q-SWITCHING; 3.4. CAVITY DUMPING; REFERENCES 3; 4. Lasers; 4.1. RUBY LASER; 4.2. MOLECULAR GAS LASERS FROM THE INFRARED REGION; 4.2.1. Lasers Operating on Rotational Transitions; 4.2.2. Lasers Operating on Vibrational-Rotational Transitions: CO2 and CO; 4.3. CHEMICAL LASERS; 4.4. SOLID-STATE LASERS; 4.4.1. Neodymium Laser and other Rare-Earth Lasers 4.4.2. Solid- State Tunable Lasers (Vibronic Lasers)4.4.3. Fiber Lasers; 4.5. GAS LASERS FOR THE VISIBLE RANGE; 4.5.1. Helium-Neon Laser; 4.5.2. Ion-Gas Lasers. Argon and Krypton Lasers; 4.6. LIQUID DYE LASERS; 4.7. GAS LASERS FOR THE ULTRAVIOLET RANGE; 4.7.1. Excimer Lasers; 4.7.2. Nitrogen Laser; 4.8. DIODE LASERS; 4.8.1. Intrinsic Semiconductors. Doped Semiconductors. Junction; 4.8.2. Diode Lasers; REFERENCES 4; 5. Nonlinear Optics; 5.1. SECOND ORDER NONLINEAR PHENOMENA; 5.2. PHASE MATCHING METHODS; 5.3. PRACTICAL ASPECTS OF THE SECOND HARMONIC GENERATION 5.3.1. SHG for Pico- and Femtosecond Pulses 5.4. PARAMETRIC OSCILLATOR; 5.5. THE THIRD ORDER NONLINEAR PROCESSES; 5.5.1. Stimulated Raman Scattering; 5.5.2. Coherent Anti-Stokes Raman Scattering (CARS); 5.5.3. The Other Techniques of Nonlinear Stimulated Raman Scattering; 5.6. NONLINEAR DISPERSION PHENOMENA AFFECTING PICOSECOND AND FEMTOSECOND PULSE DURATION - GROUP VELOCITY DISPERSION (GVD) AND SELF PHASE MODULATION (SPM); REFERENCES 5; 6. Pulse Amplification; 6.1. INTRODUCTION; 6.2. THEORETICAL BACKGROUND; 6.3. DESIGN FEATURES OF AMPLIFIERS; 6.4. REGENERATIVE AMPLIFIER 6.4.1. The Pockets Cell 6.5. CHIRPED PULSE AMPLIFICATION (CPA); REFERENCES 6; 7. The Measurement of Ultrashort Laser Pulses; 7.1. AUTOCORRELATION TECHNIQUES; 7.2. FROG TECHNIQUES; REFERENCES 7; 8. Selected Methods of Time-Resolved Laser Spectroscopy; 8.1. FLUORESCENCE DECAY; 8.2. THE PUMP-PROBE METHOD; 8.3. CARS AS A TIME-RESOLVED METHOD; 8.4. PHOTON ECHO; 8.4.1. Spin Echo in NMR; 8.4.2. Optical Resonance; 8.4.3. Quantum-Classical Description of the Photon Echo; 8.4.4. Practical Advantages of Photon Echo Applications; 8.5. QUANTUM BEATS; 8.5.1. Quantum Description 8.5.2. Examples of Quantum Beats Applications |
Record Nr. | UNINA-9910784600203321 |
Abramczyk Halina
![]() |
||
Amsterdam ; ; Boston, : Elsevier, 2005 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Introduction to laser spectroscopy [[electronic resource] /] / Halina Abramczyk |
Autore | Abramczyk Halina |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Amsterdam ; ; Boston, : Elsevier, 2005 |
Descrizione fisica | 1 online resource (331 p.) |
Disciplina | 535.8/4 |
Soggetto topico |
Laser spectroscopy
Spectrum analysis |
ISBN |
1-280-62176-1
9786610621767 0-08-045525-5 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
copyright; front matter; Acknowledgements; Preface; table of contents; body; 1. Basic Physics of Lasers; 1.1. SPONTANEOUS AND STIMULATED TRANSITIONS. EINSTEIN COEFFICIENTS. PROPERTIES OF STIMULATED RADIATION; 1.2. LASER OPERATION BASICS; 1.3. POPULATION INVERSION; 1.4. AMPLIFICATION AND SATURATION; REFERENCES 1; 2. Distribution of the Electromagnetic Field in the Optical Resonator; 2.1. LONGITUDINAL MODES; 2.2. QUALITY FACTOR OF RESONATOR RELATIONSHIP BETWEEN LINEWIDTH OF STIMULATED EMISSION AND RESONATOR QUALITY FACTOR; 2.3. TRANSVERSE MODES; REFERENCES 2
3. Generation of Ultrashort Laser Pulses 3.1. MODELOCKING. RELATIONSHIP BETWEEN LINE WIDTH OF STIMULATED EMISSION AND PULSE DURATION; 3.2. METHODS OF MODELOCKING. ACTIVE AND PASSIVE MODELOCKING; 3.3. Q-SWITCHING; 3.4. CAVITY DUMPING; REFERENCES 3; 4. Lasers; 4.1. RUBY LASER; 4.2. MOLECULAR GAS LASERS FROM THE INFRARED REGION; 4.2.1. Lasers Operating on Rotational Transitions; 4.2.2. Lasers Operating on Vibrational-Rotational Transitions: CO2 and CO; 4.3. CHEMICAL LASERS; 4.4. SOLID-STATE LASERS; 4.4.1. Neodymium Laser and other Rare-Earth Lasers 4.4.2. Solid- State Tunable Lasers (Vibronic Lasers)4.4.3. Fiber Lasers; 4.5. GAS LASERS FOR THE VISIBLE RANGE; 4.5.1. Helium-Neon Laser; 4.5.2. Ion-Gas Lasers. Argon and Krypton Lasers; 4.6. LIQUID DYE LASERS; 4.7. GAS LASERS FOR THE ULTRAVIOLET RANGE; 4.7.1. Excimer Lasers; 4.7.2. Nitrogen Laser; 4.8. DIODE LASERS; 4.8.1. Intrinsic Semiconductors. Doped Semiconductors. Junction; 4.8.2. Diode Lasers; REFERENCES 4; 5. Nonlinear Optics; 5.1. SECOND ORDER NONLINEAR PHENOMENA; 5.2. PHASE MATCHING METHODS; 5.3. PRACTICAL ASPECTS OF THE SECOND HARMONIC GENERATION 5.3.1. SHG for Pico- and Femtosecond Pulses 5.4. PARAMETRIC OSCILLATOR; 5.5. THE THIRD ORDER NONLINEAR PROCESSES; 5.5.1. Stimulated Raman Scattering; 5.5.2. Coherent Anti-Stokes Raman Scattering (CARS); 5.5.3. The Other Techniques of Nonlinear Stimulated Raman Scattering; 5.6. NONLINEAR DISPERSION PHENOMENA AFFECTING PICOSECOND AND FEMTOSECOND PULSE DURATION - GROUP VELOCITY DISPERSION (GVD) AND SELF PHASE MODULATION (SPM); REFERENCES 5; 6. Pulse Amplification; 6.1. INTRODUCTION; 6.2. THEORETICAL BACKGROUND; 6.3. DESIGN FEATURES OF AMPLIFIERS; 6.4. REGENERATIVE AMPLIFIER 6.4.1. The Pockets Cell 6.5. CHIRPED PULSE AMPLIFICATION (CPA); REFERENCES 6; 7. The Measurement of Ultrashort Laser Pulses; 7.1. AUTOCORRELATION TECHNIQUES; 7.2. FROG TECHNIQUES; REFERENCES 7; 8. Selected Methods of Time-Resolved Laser Spectroscopy; 8.1. FLUORESCENCE DECAY; 8.2. THE PUMP-PROBE METHOD; 8.3. CARS AS A TIME-RESOLVED METHOD; 8.4. PHOTON ECHO; 8.4.1. Spin Echo in NMR; 8.4.2. Optical Resonance; 8.4.3. Quantum-Classical Description of the Photon Echo; 8.4.4. Practical Advantages of Photon Echo Applications; 8.5. QUANTUM BEATS; 8.5.1. Quantum Description 8.5.2. Examples of Quantum Beats Applications |
Record Nr. | UNINA-9910821704503321 |
Abramczyk Halina
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||
Amsterdam ; ; Boston, : Elsevier, 2005 | ||
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Lo trovi qui: Univ. Federico II | ||
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Laser control of atoms and molecules [[electronic resource] /] / Vladilen Letokhov |
Autore | Letokhov V. S |
Pubbl/distr/stampa | Oxford ; ; New York, : Oxford University Press, 2007 |
Descrizione fisica | 1 online resource (323 p.) |
Disciplina | 535.8/4 |
Collana | International Series of Monographs on Physics |
Soggetto topico |
Quantum optics
Laser cooling Laser beams Laser spectroscopy |
Soggetto genere / forma | Electronic books. |
ISBN |
1-281-16015-6
9786611160159 0-19-152371-2 1-4294-8844-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Contents; 1 Introduction; 2 Elementary radiative processes; 3 Laser velocity-selective excitation; 4 Optical orientation of atoms and nuclei; 5 Laser cooling of atoms; 6 Laser trapping of atoms; 7 Atom optics; 8 From laser-cooled and trapped atoms to atomic and molecular quantum gases; 9 Laser photoselective ionization of atoms; 10 Multiphoton ionization of molecules; 11 Photoselective laser control of molecules via molecular vibrations; 12 Coherent laser control of molecules; 13 Related topics: laser control of microparticles and free electrons; 14 Concluding comments; References; Index |
Record Nr. | UNINA-9910451557403321 |
Letokhov V. S
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||
Oxford ; ; New York, : Oxford University Press, 2007 | ||
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Lo trovi qui: Univ. Federico II | ||
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Laser control of atoms and molecules [[electronic resource] /] / Vladilen Letokhov |
Autore | Letokhov V. S |
Pubbl/distr/stampa | Oxford ; ; New York, : Oxford University Press, 2007 |
Descrizione fisica | 1 online resource (323 p.) |
Disciplina | 535.8/4 |
Collana | International Series of Monographs on Physics |
Soggetto topico |
Quantum optics
Laser cooling Laser beams Laser spectroscopy |
ISBN |
1-383-02463-4
1-281-16015-6 9786611160159 0-19-152371-2 1-4294-8844-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Contents; 1 Introduction; 2 Elementary radiative processes; 3 Laser velocity-selective excitation; 4 Optical orientation of atoms and nuclei; 5 Laser cooling of atoms; 6 Laser trapping of atoms; 7 Atom optics; 8 From laser-cooled and trapped atoms to atomic and molecular quantum gases; 9 Laser photoselective ionization of atoms; 10 Multiphoton ionization of molecules; 11 Photoselective laser control of molecules via molecular vibrations; 12 Coherent laser control of molecules; 13 Related topics: laser control of microparticles and free electrons; 14 Concluding comments; References; Index |
Record Nr. | UNINA-9910784827703321 |
Letokhov V. S
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||
Oxford ; ; New York, : Oxford University Press, 2007 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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Laser control of atoms and molecules [[electronic resource] /] / Vladilen Letokhov |
Autore | Letokhov V. S |
Pubbl/distr/stampa | Oxford ; ; New York, : Oxford University Press, 2007 |
Descrizione fisica | 1 online resource (323 p.) |
Disciplina | 535.8/4 |
Collana | International Series of Monographs on Physics |
Soggetto topico |
Quantum optics
Laser cooling Laser beams Laser spectroscopy |
ISBN |
1-383-02463-4
1-281-16015-6 9786611160159 0-19-152371-2 1-4294-8844-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Contents; 1 Introduction; 2 Elementary radiative processes; 3 Laser velocity-selective excitation; 4 Optical orientation of atoms and nuclei; 5 Laser cooling of atoms; 6 Laser trapping of atoms; 7 Atom optics; 8 From laser-cooled and trapped atoms to atomic and molecular quantum gases; 9 Laser photoselective ionization of atoms; 10 Multiphoton ionization of molecules; 11 Photoselective laser control of molecules via molecular vibrations; 12 Coherent laser control of molecules; 13 Related topics: laser control of microparticles and free electrons; 14 Concluding comments; References; Index |
Record Nr. | UNINA-9910828763903321 |
Letokhov V. S
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Oxford ; ; New York, : Oxford University Press, 2007 | ||
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Lo trovi qui: Univ. Federico II | ||
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Laser spectroscopy : proceedings of the XXII International Conference / / XII International Conference on Laser Spectroscopy (ICOLS2015) Singapore, 28 June-3July 2015 ; editor, Kai Dieckmann (Centre for Quantum Technologies and National University of Singapore, Singapore) |
Pubbl/distr/stampa | Hackensack, New Jersey : , : World Scientific, , [2017] |
Descrizione fisica | 1 online resource (110 pages) : color illustrations |
Disciplina | 535.8/4 |
Soggetto topico | Laser spectroscopy |
ISBN | 981-320-061-8 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Quantum walks with neutral atoms: quantum interference effects of one and two particles / Andrea Alberti -- Muonic atoms and the nuclear structure / Aldo Antognini for the CREMA collaboration -- Doppler-broadening gas thermometry at 1.39 [micrometers]: towards a new spectroscopic determination of the Boltzmann constant / Livio Gianfrani -- Antiferromagnetism with ultracold atoms / Randall G. Hulet -- Optical clocks with trapped ions: establishing the 10⁻¹⁸ uncertainty range / Ekkehard Peik -- Precision measurement of the Newtonian gravitational constant by atom interferometry / Gabriele Rosi -- Optical sideband cooling of ions in a Penning trap / Richard C. Thompson -- Bose-Einstein condensation of photons versus Lasing and Hanbury Brown-Twiss measurements with a condensate of light / Martin Weitz. |
Record Nr. | UNINA-9910149709903321 |
Hackensack, New Jersey : , : World Scientific, , [2017] | ||
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Lo trovi qui: Univ. Federico II | ||
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Physics, optics, and spectroscopy of materials / / Zeev Burshtein |
Autore | Burshtein Zeev |
Pubbl/distr/stampa | Hoboken, New Jersey : , : John Wiley & Sons, Inc., , [2022] |
Descrizione fisica | 1 online resource (996 pages) |
Disciplina | 535.8/4 |
Soggetto topico |
Spectrum analysis
Optics Dielectrics |
ISBN |
1-119-76876-4
1-119-76875-6 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Intro -- Table of Contents -- Title Page -- Copyright Page -- Introduction -- 1 Electromagnetic Radiation/Matter Interaction - A Classical Approach -- 1.1 Electromagnetic Radiation by Atoms and Molecules -- 1.2 Spectral Line Widths -- 1.3 Electromagnetic Radiation Absorption by Atoms and Molecules -- 1.4 Radiation Scattering by Atoms and Molecules -- 1.5 Reminder: Multipole Moments Expansion -- Exercises for Chapter 1 -- 2 Electromagnetic Radiation/Matter Interaction - A Semi‐Quantum Approach -- 2.1 A Reminder of Perturbation Theory -- 2.2 A Reminder of Planck's Black‐Body Radiation -- 2.3 An Atom or Molecule in an Electromagnetic Radiation Field -- 2.4 Stimulated Emission and Einstein's Coefficients -- 2.5 Radiation Absorption and Amplification in Matter -- 2.6 Black Body Radiation - Continuation and Completion -- Exercises for Chapter 2 -- 3 The Hydrogen Atom - Electrostatic Attraction Approximation -- 3.1 De Broglie Waves and Schrödinger's Equation -- 3.2 Differential Operators and Physical Quantities -- 3.3 Schrödinger Equation Solution for Hydrogen and Hydrogen‐Like Atoms -- 3.4 Physical Meanings of Schrödinger Equation Solutions for Hydrogen‐Like Atoms -- 3.5 Spectroscopy of Hydrogen and Hydrogen‐Like Atoms -- 3.6 Selection Rules -- Exercises for Chapter 3 -- 4 Hydrogen Atom - Corrections to the Electrostatic Attraction Approximation -- 4.1 Angular Momentum and the Orbital Quantum Number -- 4.2 Mechanical Relativistic Correction to the Eigenenergies of the Hydrogen Atom -- 4.3 Electron Spinning -- 4.4 Combining Orbital Angular Momentum and Spin -- 4.5 Gyromagnetic Ratio and Spin/Orbit Coupling -- 4.6 Landé Factor -- 4.7 Lamb Shift -- 4.8 Selection Rules and Transition Probabilities -- 4.9 Static External Magnetic and Electric Fields: Zeeman and Stark Effects -- 4.10 The Fine Structure.
4.11 Appendix: Clebsch‐Gordan Coefficients for Coupling of Two Angular Momentums -- Exercises for Chapter 4 -- 5 Many‐Electron Atoms -- 5.1 Preamble -- 5.2 Helium‐Like Atoms -- 5.3 Bosons, Fermions, and Pauli Exclusion Principle -- 5.4 Electronic Structure of Many‐Electron Atoms -- 5.5 Excited‐States Structure in Many‐Electron Atoms -- Exercises for Chapter 5 -- 6 Electron Orbits in Molecules -- 6.1 Preamble -- 6.2 The Hydrogen Molecule Ion -- 6.3 Molecular Electronic Angular Momentum -- 6.4 Many‐Electron Homonuclear Diatomic Molecules -- 6.5 Many‐Electron Heteronuclear Diatomic Molecules -- 6.6 Multiatomic Molecules -- 6.7 Appendix: Calculation of an Infinitesimal Volume Element in Elliptic Coordinates -- Exercises for Chapter 6 -- 7 Molecular (Especially Diatomic) Internal Oscillations -- 7.1 Preamble -- 7.2 The Born‐Oppenheimer Approximation -- 7.3 Vibrational and Rotational Modes of Diatomic Molecules -- 7.4 Vibrational/Rotational Absorption Spectra -- 7.5 Electronic Transitions and the Franck‐Condon Principle -- Exercises for Chapter 7 -- 8 Internal Oscillations of Polyatomic Molecules -- 8.1 Preamble -- 8.2 Zero‐Order Mechanical Energy Approximation of a Polyatomic Molecule -- 8.3 Molecular Vibrational Modes -- 8.4 Vibrational Energy Scheme -- 8.5 Rayleigh and Raman Scattering -- 8.6 Point Symmetry -- 8.7 Group Representations, Characters, and Reduction Equation -- 8.8 Similarity Classes, Irreducible Representations, and Character Tables -- 8.9 Selection Rules for Electric Dipole Absorption and Raman Scattering -- 8.10 Method for Calculation and Description of Molecular Vibrational Species -- 8.11 Examples of Molecular Vibrational Symmetry Species -- 8.12 Point Groups, Character Tables, and Selection Rules -- Exercises for Chapter 8 -- 9 Crystalline Solids -- 9.1 Preamble -- 9.2 Periodic Crystals. 9.3 Lattice‐Vector and Lattice‐Plane Orientations -- 9.4 The Reciprocal Lattice -- 9.5 Internal Crystalline Oscillations -- 9.6 Appendix: Intermediate Calculation for Justifying Eq. (9.11) -- Exercises for Chapter 9 -- 10 Dielectric Crystalline Solids -- 10.1 Light Propagation in a Dielectric Medium -- 10.2 Light Transition from Vacuum into a Dielectric Medium -- 10.3 Kramers‐Kronig Relations -- 10.4 A Microscopic Model of the Dielectric Function -- 10.5 A Reminder: Gradient, Divergence, Rotor, and the Cauchy Equation -- Exercises for Chapter 10 -- 11 Crystalline Oscillation Species -- 11.1 Introduction -- 11.2 Crystalline Sites -- 11.3 Tabulation Method -- 11.4 Calculation of Crystalline Oscillation Species - An Example -- 11.5 Tabulation of Crystalline Space Group Properties -- Exercises for Chapter 11 -- 12 Atoms and Ions in Crystalline Sites -- 12.1 Introduction -- 12.2 Energy States of Alkali and Alkali‐Like Atoms -- 12.3 Energy States of Many‐Electron Atoms and Ions -- 12.4 Dopant Atoms or Ions in Crystalline Sites -- 12.5 Transition Probabilities and Selection Rules -- 12.6 Spectroscopic Examples -- 12.7 Appendix: An Integral Over Three Multiplied Spherical Harmonics -- Exercises for Chapter 12 -- 13 Non‐Radiative and Mixed Decay Transitions -- 13.1 Non‐Radiative Transitions Between Close Electronic States -- 13.2 Radiative Transition Lifetime and Optical Absorption and Emission Spectra -- 13.3 Multi‐Phonon Non‐Radiative Transitions -- Exercises for Chapter 13 -- 14 Basic Acquaintance with the Laser and Its Components -- 14.1 General Description -- 14.2 The Optical Cavity -- 14.3 The Prism -- 14.4 Reflection Grating -- 14.5 Fabry‐Pérot Etalon -- 14.6 Brewster Window and a Brewster Plate -- 14.7 Loss Presentation in a Laser Cavity -- Exercises for Chapter 14 -- 15 Transverse Optical Modes and Crystal Optics -- 15.1 Preamble. 15.2 Transverse Single‐Mode Gaussian Beam -- 15.3 Transverse Multi‐Mode Beams -- 15.4 Selecting a Transverse Mode for a Laser Output -- 15.5 Lens Crossing of a Single‐Mode Transverse Gaussian Beam -- 15.6 Multi‐Mode Transverse Gaussian Beams -- 15.7 Crystal Optics -- 15.8 Retardation Plates -- Exercises for Chapter 15 -- 16 Pulsed High Power Lasers -- 16.1 Introduction -- 16.2 Passive Q‐Switching Using a Saturable Light Absorber -- 16.3 Active Q‐Switching Using Electrooptic Crystals -- 16.4 Mode‐Locking -- Exercises for Chapter 16 -- 17 Frequency Conversions of Laser Beams -- 17.1 Non‐Linear Crystals -- 17.2 Electromagnetic Wave Propagation in a Non‐Linear Crystal -- 17.3 Optical Parametric Oscillations -- 17.4 A Reminder: Hyperbolic "Trigonometric" Functions -- Exercises for Chapter 7 -- 18 Examples of Various Laser Systems -- 18.1 Introduction -- 18.2 Helium‐Neon Laser -- 18.3 Copper Vapor Laser -- 18.4 Hydrogen Fluoride Chemical Laser -- 18.5 Neodymium‐YAG Laser -- 18.6 Dye Lasers -- 18.7 Diode Lasers -- Exercises for Chapter 18 -- Appendix A: Greek alphabet and phonetic names -- Appendix B: Table of physical constants -- Appendix C: Dirac δ function -- Appendix D: Literature references for further reading -- 1. Books -- 2. Journal publications -- Index -- End User License Agreement. |
Record Nr. | UNINA-9910830774603321 |
Burshtein Zeev
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Hoboken, New Jersey : , : John Wiley & Sons, Inc., , [2022] | ||
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Lo trovi qui: Univ. Federico II | ||
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Recent Advances in Broadband Dielectric Spectroscopy [[electronic resource] /] / edited by Yuri P. Kalmykov |
Edizione | [1st ed. 2013.] |
Pubbl/distr/stampa | Dordrecht : , : Springer Netherlands : , : Imprint : Springer, , 2013 |
Descrizione fisica | 1 online resource (XI, 196 p. 75 illus.) |
Disciplina | 535.8/4 |
Collana | NATO Science for Peace and Security Series B: Physics and Biophysics |
Soggetto topico |
Atomic structure
Molecular structure Condensed matter Atomic/Molecular Structure and Spectra Condensed Matter Physics |
Soggetto genere / forma | Conference proceedings. |
ISBN | 94-007-5012-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910438115603321 |
Dordrecht : , : Springer Netherlands : , : Imprint : Springer, , 2013 | ||
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Lo trovi qui: Univ. Federico II | ||
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Spectra of atoms and molecules [[electronic resource] /] / Peter F. Bernath |
Autore | Bernath Peter F |
Edizione | [2nd ed.] |
Pubbl/distr/stampa | New York, : Oxford University Press, c2005 |
Descrizione fisica | 1 online resource (454 p.) |
Disciplina | 535.8/4 |
Soggetto topico |
Atomic spectroscopy
Molecular spectroscopy Spectrum analysis |
Soggetto genere / forma | Electronic books. |
ISBN |
1-280-70444-6
0-19-534645-9 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Contents; 1 Introduction; 1.1 Waves, Particles, and Units; 1.2 The Electromagnetic Spectrum; 1.3 Interaction of Radiation with Matter; Blackbody Radiation; Einstein A and B Coefficients; Absorption and Emission of Radiation; Beer's Law; Lineshape Functions; Natural Lifetime Broadening; Pressure Broadening; Doppler Broadening; Transit-Time Broadening; Power Broadening; 2 Molecular Symmetry; 2.1 Symmetry Operations; Operator Algebra; Symmetry Operator Algebra; 2.2 Groups; Point Groups; Classes; Subgroups; 2.3 Notation for Point Groups; 3 Matrix Representation of Groups; 3.1 Vectors and Matrices
Matrix Eigenvalue ProblemSimilarity Transformations; 3.2 Symmetry Operations and Position Vectors; Reflection; Rotation; Inversion; Rotation-Reflection; Identity; 3.3 Symmetry Operators and Basis Vectors; 3.4 Symmetry Operators and Basis Functions; Function Spaces; Gram-Schmidt Procedure; Transformation Operators; 3.5 Equivalent, Reducible, and Irreducible Representations; Equivalent Representations; Unitary Representations; Reducible and Irreducible Representations; 3.6 Great Orthogonality Theorem; Characters; 3.7 Character Tables; Mulliken Notation; 4 Quantum Mechanics and Group Theory 4.1 Matrix Representation of the Schrödinger Equation4.2 Born-Oppenheimer Approximation; 4.3 Symmetry of the Hamiltonian Operator; 4.4 Projection Operators; 4.5 Direct Product Representations; 4.6 Integrals and Selection Rules; 5 Atomic Spectroscopy; 5.1 Background; 5.2 Angular Momentum; 5.3 The Hydrogen Atom and One-Electron Spectra; Vector Model; Spin-Orbit Coupling; 5.4 Many-Electron Atoms; 5.5 Selection Rules; 5.6 Atomic Spectra; Hyperfine Structure; Hydrogen Atom; 5.7 Intensity of Atomic Lines; 5.8 Zeeman Effect; Paschen-Back Effect; 5.9 Stark Effect; 6 Rotational Spectroscopy 6.1 Rotation of Rigid Bodies6.2 Diatomic and Linear Molecules; Selection Rules; Centrifugal Distortion; Vibrational Angular Momentum; 6.3 Line Intensities for Diatomic and Linear Molecules; 6.4 Symmetric Tops; Molecule and Space-Fixed Angular Momenta; Rotational Spectra; Centrifugal Distortion; Line Intensity; 6.5 Asymmetric Tops; Selection Rules; Line Intensity; 6.6 Structure Determination; 7 Vibrational Spectroscopy; 7.1 Diatomic Molecules; Wavefunctions for Harmonic and Anharmonic Oscillators; Vibrational Selection Rules for Diatomics; Dissociation Energies from Spectroscopic Data Vibration-Rotation Transitions of DiatomicsCombination Differences; 7.2 Vibrational Motion of Polyatomic Molecules; Classical Mechanical Description; Quantum Mechanical Description; Internal Coordinates; Symmetry Coordinates; Symmetry of Normal Modes; Selection Rules for Vibrational Transitions; Vibration-Rotation Transitions of Linear Molecules; Nuclear Spin Statistics; Excited Vibrational States of Linear Molecules; 7.3 Vibrational Spectra of Symmetric Tops; Coriolis Interactions in Molecules; 7.4 Infrared Transitions of Spherical Tops; 7.5 Vibrational Spectra of Asymmetric Tops 7.6 Vibration-Rotation Line Intensities |
Record Nr. | UNINA-9910458227003321 |
Bernath Peter F
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New York, : Oxford University Press, c2005 | ||
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