Atoms, molecules and photons: an introduction to atomic-, molecular- and quantum physics
Gespeichert in:
| 1. Verfasser: | |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin
Springer
[2018]
|
| Ausgabe: | Third edition |
| Schriftenreihe: | Graduate texts in physics
|
| Schlagworte: | |
| Online-Zugang: | Inhaltstext http://www.springer.com/ Inhaltsverzeichnis |
| Beschreibung: | Enthält Literaturangaben und Index |
| Beschreibung: | xviii, 551 Seiten Illustrationen, Diagramme 23.5 cm x 15.5 cm |
| ISBN: | 9783662555217 3662555212 |
Internformat
MARC
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| 020 | |a 3662555212 |9 3-662-55521-2 | ||
| 024 | 3 | |a 9783662555217 | |
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| 028 | 5 | 2 | |a Bestellnummer: 86233047 |
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| 100 | 1 | |a Demtröder, Wolfgang |d 1931- |e Verfasser |0 (DE-588)120579774 |4 aut | |
| 245 | 1 | 0 | |a Atoms, molecules and photons |b an introduction to atomic-, molecular- and quantum physics |c Wolfgang Demtröder |
| 250 | |a Third edition | ||
| 264 | 1 | |a Berlin |b Springer |c [2018] | |
| 264 | 4 | |c © 2018 | |
| 300 | |a xviii, 551 Seiten |b Illustrationen, Diagramme |c 23.5 cm x 15.5 cm | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
| 490 | 0 | |a Graduate texts in physics | |
| 500 | |a Enthält Literaturangaben und Index | ||
| 650 | 0 | 7 | |a Quantenphysik |0 (DE-588)4266670-3 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Molekülphysik |0 (DE-588)4039979-5 |2 gnd |9 rswk-swf |
| 650 | 0 | 7 | |a Atomphysik |0 (DE-588)4003423-9 |2 gnd |9 rswk-swf |
| 653 | |a PHM | ||
| 653 | |a PHQ | ||
| 653 | |a PHJ | ||
| 653 | |a Dielectric Properties Condensed Matter | ||
| 653 | |a Electromagnetic Radiation | ||
| 653 | |a Experimental Techniques Optics | ||
| 653 | |a Experimental Techniques Physics | ||
| 653 | |a Optical Properties Condensed Matter | ||
| 653 | |a Photons and Optics | ||
| 653 | |a Semiconductor Physics | ||
| 653 | |a Textbook Atomic Physics | ||
| 653 | |a Textbook Demtroder | ||
| 653 | |a Textbook Lasers | ||
| 653 | |a Textbook Molecular Physics | ||
| 653 | |a Textbook Quantum Physics | ||
| 653 | |a Textbook Spectroscopy | ||
| 653 | |a PHM | ||
| 655 | 7 | |0 (DE-588)4123623-3 |a Lehrbuch |2 gnd-content | |
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| 943 | 1 | |a oai:aleph.bib-bvb.de:BVB01-029808383 | |
Datensatz im Suchindex
| _version_ | 1817967967460130816 |
|---|---|
| adam_text |
CONTENTS
1
INTRODUCTION
1
1.1
CONTENTS
AND
IMPORTANCE
OF
ATOMIC
PHYSICS
1
1.2
MOLECULES:
BUILDING
BLOCKS
OF
NATURE
3
1.3
SURVEY
ON
THE
CONCEPT
OF
THIS
TEXTBOOK
4
REFERENCES
4
2
THE
CONCEPT
OF
THE
ATOM
7
2.1
HISTORICAL
DEVELOPMENT
7
2.2
EXPERIMENTAL
AND
THEORETICAL
PROOFS
FOR
THE
EXISTENCE
OF
ATOMS
8
2.2.1
DALTON
*
S
LAW
OF
CONSTANT
PROPORTIONS
2.2.2
THE
LAW
OF
GAY-LUSSAC
AND
THE
DEFINITION
OF
THE
MOLE
2.2.3
EXPERIMENTAL
METHODS
FOR
THE
DETERMINATION
OF
AVOGADRO
*
S
CONSTANT
2.2.4
THE
IMPORTANCE
OF
KINETIC
GAS
THEORY
FOR
THE
CONCEPT
OF
ATOMS
2.3
CAN
ONE
SEE
ATOMS?
2.3.1
BROWNIAN
MOTION
2.3.2
CLOUD
CHAMBER
2.3.3
MICROSCOPES
WITH
ATOMIC
RESOLUTION
2.4
THE
SIZE
OF
ATOMS
2.4.1
THE
SIZE
OF
ATOMS
IN
THE
VAN
DER
WAALS
EQUATION
2.4.2
ATOMIC
SIZE
ESTIMATION
FROM
TRANSPORT
COEFFICIENTS
2.4.3
ATOMIC
VOLUMES
FROM
X-RAY
DIFFRACTION
2.4.4
COMPARISON
OF
THE
DIFFERENT
METHODS
2.5
THE
ELECTRIC
STRUCTURE
OF
ATOMS
2.5.1
CATHODE
RAYS
AND
KANALSTRAHLEN
2.5.2
MEASUREMENT
OF
THE
ELEMENTARY
CHARGE
E
.
2.5.3
HOW
TO
PRODUCE
FREE
ELECTRONS
2.5.4
GENERATION
OF
FREE
IONS
2.5.5
THE
MASS
OF
THE
ELECTRON
2.5.6
HOW
NEUTRAL
IS
THE
ATOM?
2.6
ELECTRON
AND
ION
OPTICS
2.6.1
REFRACTION
OF
ELECTRON
BEAMS
2.6.2
ELECTRON
OPTICS
IN
AXIALLY
SYMMETRIC
FIELDS
2.6.3
ELECTROSTATIC
ELECTRON
LENSES
2.6.4
MAGNETIC
LENSES
2.6.5
APPLICATIONS
OF
ELECTRON
AND
ION
OPTICS
2.7
ATOMIC
MASSES
AND
MASS
SPECTROMETERS
2.7.1
J.J.
THOMSON
*
S
PARABOLA
SPECTROGRAPH
2.7.2
VELOCITY-INDEPENDENT
FOCUSING
2.7.3
FOCUSING
OF
IONS
WITH
DIFFERENT
ANGLES
OF
INCIDENCE
2.7.4
MASS
SPECTROMETER
WITH
DOUBLE
FOCUSING
2.7.5
TIME-OF-FLIGHT
MASS
SPECTROMETER
2.7.6
QUADRUPOLE
MASS
SPECTROMETER
2.7.7
ION-CYCLOTRON-RESONANCE
SPECTROMETER
.
57
2.7.8
ISOTOPES
.
59
2.8
THE
STRUCTURE
OF
ATOMS
.
59
2.8.1
INTEGRAL
AND
DIFFERENTIAL
CROSS
SECTIONS
.
60
2.8.2
BASIC
CONCEPTS
OF
CLASSICAL
SCATTERING
.
61
2.8.3
DETERMINATION
OF
THE
CHARGE
DISTRIBUTION
WITHIN
THE
ATOM
FROM
SCATTERING
EXPERIMENTS
.
65
2.8.4
THOMSON
*
S
ATOMIC
MODEL
.
65
2.8.5
RUTHERFORD
*
S
SCATTERING
EXPERIMENTS
.
66
2.8.6
THE
RUTHERFORD
ATOMIC
MODEL
.
67
2.8.7
RUTHERFORD
*
S
SCATTERING
FORMULA
.
68
SUMMARY
.
71
PROBLEMS
.
72
REFERENCES
.
73
3
DEVELOPMENT
OF
QUANTUM
PHYSICS
.
75
3.1
EXPERIMENTAL
HINTS
TO
THE
PARTICLE
CHARACTER
OF
ELECTROMAGNETIC
RADIATION
.
75
3.1.1
BLACKBODY
RADIATION
.
76
3.1.2
CAVITY
MODES
.
77
3.1.3
PLANCK
*
S
RADIATION
LAW
.
79
3.1.4
WIEN
*
S
LAW
.
81
3.1.5
STEFAN-BOLTZMANN
*
S
RADIATION
LAW
.
81
3.1.6
PHOTOELECTRIC
EFFECT
.
82
3.1.7
COMPTON
EFFECT
.
84
3.1.8
PROPERTIES
OF
PHOTONS
.
86
3.1.9
PHOTONS
IN
GRAVITATIONAL
FIELDS
.
87
3.1.10
WAVE
AND
PARTICLE
ASPECTS
OF
LIGHT
.
88
3.2
WAVE
PROPERTIES
OF
PARTICLES
.
89
3.2.1
DE
BROGLIE
WAVELENGTH
AND
ELECTRON
DIFFRACTION
.
90
3.2.2
DIFFRACTION
AND
INTERFERENCE
OF
ATOMS
.
91
3.2.3
BRAGG
REFLECTION
AND
THE
NEUTRON
SPECTROMETER
.
92
3.2.4
NEUTRON
AND
ATOM
INTERFEROMETRY
.
93
3.2.5
APPLICATION
OF
PARTICLE
WAVES
.
94
3.3
MATTER
WAVES
AND
WAVE
FUNCTIONS
.
94
3.3.1
WAVE
PACKETS
.
95
3.3.2
THE
STATISTICAL
INTERPRETATION
OF
WAVE
FUNCTIONS
.
97
3.3.3
HEISENBERG
*
S
UNCERTAINTY
PRINCIPLE
.
99
3.3.4
DISPERSION
OF
THE
WAVE
PACKET
.
102
3.3.5
UNCERTAINTY
RELATION
FOR
ENERGY
AND
TIME
.
102
3.4
THE
QUANTUM
STRUCTURE
OF
ATOMS
.
104
3.4.1
ATOMIC
SPECTRA
.
104
3.4.2
BOHR
*
S
ATOMIC
MODEL
.
105
3.4.3
THE
STABILITY
OF
ATOMS
.
108
3.4.4
FRANCK-HERTZ
EXPERIMENT
.
109
3.5
WHAT
ARE
THE
DIFFERENCES
BETWEEN
CLASSICAL
AND
QUANTUM
PHYSICS?
.
ILL
3.5.1
CLASSICAL
PARTICLE
PATHS
VERSUS
PROBABILITY
DENSITIES
IN
QUANTUM
PHYSICS
.
ILL
3.5.2
INTERFERENCE
PHENOMENA
WITH
LIGHT
WAVES
AND
MATTER
WAVES
.
112
3.5.3
THE
EFFECT
OF
THE
MEASURING
PROCESS
.
114
3.5.4
THE
IMPORTANCE
OF
QUANTUM
PHYSICS
FOR
OUR
CONCEPT
OF
NATURE
.
115
SUMMARY
.
117
PROBLEMS
.
118
REFERENCES
.
118
4
BASIC
CONCEPTS
OF
QUANTUM
MECHANICS
.
119
4.1
THE
SCHRODINGER
EQUATION
.
119
4.2
SOME
EXAMPLES
.
121
4.2.1
THE
FREE
PARTICLE
.
121
4.2.2
POTENTIAL
BARRIER
.
122
4.2.3
TUNNEL
EFFECT
.
.
125
4.2.4
PARTICLE
IN
A
POTENTIAL
BOX
.
127
4.2.5
HARMONIC
OSCILLATOR
.
130
4.3
TWO-AND
THREE-DIMENSIONAL
PROBLEMS
.
133
4.3.1
PARTICLE
IN
A
TWO-DIMENSIONAL
BOX
.
133
4.3.2
PARTICLE
IN
A
SPHERICALLY
SYMMETRIC
POTENTIAL
.
134
4.4
EXPECTATION
VALUES
AND
OPERATORS
.
138
4.4.1
OPERATORS
AND
EIGENVALUES
.
138
4.4.2
ANGULAR
MOMENTUM
IN
QUANTUM
MECHANICS
.
141
SUMMARY
.
144
PROBLEMS
.
145
REFERENCES
.
145
5
THE
HYDROGEN
ATOM
.
147
5.1
SCHRODINGER
EQUATION
FOR
ONE-ELECTRON
SYSTEMS
.
147
5.1.1
SEPARATION
OF
THE
CENTER
OF
MASS
AND
RELATIVE
MOTION
.
147
5.1.2
SOLUTION
OF
THE
RADIAL
EQUATION
.
149
5.1.3
QUANTUM
NUMBERS
AND
WAVE
FUNCTIONS
OF
THE
H
ATOM
.
151
5.1.4
SPATIAL
DISTRIBUTIONS
AND
EXPECTATION
VALUES
OF
THE
ELECTRON
IN
DIFFERENT
QUANTUM
STATES
.
152
5.2
THE
NORMAL
ZEEMAN
EFFECT
.
155
5.3
COMPARISON
OF
SCHRODINGER
THEORY
WITH
EXPERIMENTAL
RESULTS
.
158
5.4
RELATIVISTIC
CORRECTION
OF
ENERGY
TERMS
.
159
5.5
THE
ELECTRON
SPIN
.
161
5.5.1
THE
STERN-GERLACH
EXPERIMENT
.
162
5.5.2
EXPERIMENTAL
CONFIRMATION
OF
ELECTRON
SPIN
.
163
5.5.3
EINSTEIN-DE
HAAS
EFFECT
.
164
5.5.4
SPIN-ORBIT
COUPLING
AND
FINE
STRUCTURE
.
165
5.5.5
ANOMALOUS
ZEEMAN
EFFECT
.
168
5.6
HYPERFINE
STRUCTURE
.
170
5.6.1
BASIC
CONSIDERATIONS
.
170
5.6.2
FERMI-CONTACT
INTERACTION
.
172
5.6.3
MAGNETIC
DIPOLE-DIPOLE
INTERACTION
.
172
5.6.4
ZEEMAN
EFFECT
OF
HYPERFINE
STRUCTURE
LEVELS
.
173
5.7
COMPLETE
DESCRIPTION
OF
THE
HYDROGEN
ATOM
.
173
5.7.1
TOTAL
WAVE
FUNCTION
AND
QUANTUM
NUMBERS
.
174
5.7.2
TERM
ASSIGNMENT
AND
LEVEL
SCHEME
.
174
5.7.3
LAMB
SHIFT
.
176
5.8
CORRESPONDENCE
PRINCIPLE
.
179
5.9
THE
ELECTRON
MODEL
AND
ITS
PROBLEMS
.
180
SUMMARY
.
183
PROBLEMS
.
185
REFERENCES
.
185
6
ATOMS
WITH
MORE
THAN
ONE
ELECTRON
.
187
6.1
THE
HELIUM
ATOM
.
187
6.1.1
APPROXIMATION
MODELS
.
188
6.1.2
SYMMETRY
OF
THE
WAVE
FUNCTION
.
189
6.1.3
CONSIDERATION
OF
THE
ELECTRON
SPIN
.
190
6.1.4
THE
PAULI
PRINCIPLE
.
191
6.1.5
ENERGY
LEVELS
OF
THE
HELIUM
ATOM
.
192
6.1.6
HELIUM
SPECTRUM
.
193
6.2
BUILDING-UP
PRINCIPLE
OF
THE
ELECTRON
SHELL
FOR
LARGER
ATOMS
.
194
6.2.1
THE
MODEL
OF
ELECTRON
SHELLS
.
195
6.2.2
SUCCESSIVE
BUILDING-UP
OF
ELECTRON
SHELLS
FOR
ATOMS
WITH
INCREASING
NUCLEAR
CHARGE
.
196
6.2.3
ATOMIC
VOLUMES
AND
IONIZATION
ENERGIES
.
197
6.2.4
THE
PERIODIC
SYSTEM
OF
THE
ELEMENTS
.
201
6.3
ALKALI
ATOMS
.
203
6.4
THEORETICAL
MODELS
FOR
MULTIELECTRON
ATOMS
.
206
6.4.1
THE
MODEL
OF
INDEPENDENT
ELECTRONS
.
206
6.4.2
THE
HARTREE
METHOD
.
207
6.4.3
THE
HARTREE-FOCK
METHOD
.
208
6.4.4
CONFIGURATION
INTERACTION
.
208
6.5
ELECTRON
CONFIGURATIONS
AND
COUPLINGS
OF
ANGULAR
MOMENTA
.
209
6.5.1
COUPLING
SCHEMES
FOR
ELECTRONIC
ANGULAR
MOMENTA
.
209
6.5.2
ELECTRON
CONFIGURATION
AND
ATOMIC
STATES
.
213
6.6
EXCITED
ATOMIC
STATES
.
215
6.6.1
SINGLE
ELECTRON
EXCITATION
.
216
6.6.2
SIMULTANEOUS
EXCITATION
OF
TWO
ELECTRONS
.
216
6.6.3
INNER-SHELL
EXCITATION
AND
THE
AUGER
PROCESS
.
217
6.6.4
RYDBERG
STATES
.
218
6.6.5
PLANETARY
ATOMS
.
220
6.7
EXOTIC
ATOMS
.
221
6.7.1
MUONIC
ATOMS
.
221
6.7.2
PIONIC
AND
KAONIC
ATOMS
.
222
6.7.3
ANTI-HYDROGEN
ATOMS
AND
OTHER
ANTI-ATOMS
.
223
6.7.4
POSITRONIUM
AND
MUONIUM
.
224
SUMMARY
.
226
PROBLEMS
.
228
REFERENCES
.
228
7
EMISSION
AND
ABSORPTION
OF
ELECTROMAGNETIC
RADIATION
BY
ATOMS
.
229
7.1
TRANSITION
PROBABILITIES
.
230
7.1.1
INDUCED
AND
SPONTANEOUS
TRANSITIONS,
EINSTEIN
COEFFICIENTS
.
230
7.1.2
TRANSITION
PROBABILITIES,
EINSTEIN
COEFFICIENTS
AND
MATRIX
ELEMENTS
.
232
7.1.3
TRANSITION
PROBABILITIES
FOR
ABSORPTION
AND
INDUCED
EMISSION
.
234
7.2
SELECTION
RULES
.
235
7.2.1
SELECTION
RULES
FOR
SPONTANEOUS
EMISSION
.
235
7.2.2
SELECTION
RULES
FOR
THE
MAGNETIC
QUANTUM
NUMBER
.
236
7.2.3
PARITY
SELECTION
RULES
.
237
7.2.4
SELECTION
RULES
FOR
INDUCED
ABSORPTION
AND
EMISSION
.
237
7.2.5
SELECTION
RULES
FOR
THE
SPIN
QUANTUM
NUMBER
.
238
7.2.6
HIGHER
ORDER
MULTIPOLE
TRANSITIONS
.
239
7.2.7
MAGNETIC
DIPOLE
TRANSITIONS
.
240
7.2.8
TWO-PHOTON-TRANSITIONS
.
240
7.3
LIFETIMES
OF
EXCITED
STATES
.
240
7.4
LINE
PROFILES
OF
SPECTRAL
LINES
.
242
7.4.1
NATURAL
LINEWIDTH
.
243
7.4.2
DOPPLER
BROADENING
.
245
7.4.3
COLLISION
BROADENING
.
247
7.5
X-RAYS
.
250
7.5.1
BREMSSTRAHLUNG
.
251
7.5.2
CHARACTERISTIC
X-RAY-RADIATION
.
252
7.5.3
SCATTERING
AND
ABSORPTION
OF
X-RAYS
.
253
7.5.4
X-RAY
FLUORESCENCE
.
257
7.5.5
MEASUREMENTS
OF
X-RAY
WAVELENGTHS
.
257
7.6
CONTINUOUS
ABSORPTION
AND
EMISSION
SPECTRA
.
259
7.6.1
PHOTOIONIZATION
.
260
7.6.2
RECOMBINATION
RADIATION
.
262
SUMMARY
.
265
PROBLEMS
.
267
REFERENCES
.
268
8
LASERS
.
269
8.1
PHYSICAL
PRINCIPLES
.
269
8.1.1
THRESHOLD
CONDITION
.
270
8.1.2
GENERATION
OF
POPULATION
INVERSION
.
272
8.1.3
THE
FREQUENCY
SPECTRUM
OF
INDUCED
EMISSION
.
274
8.2
OPTICAL
RESONATORS
.
274
8.2.1
THE
QUALITY
FACTOR
OF
RESONATORS
.
275
8.2.2
OPEN
OPTICAL
RESONATORS
.
275
8.2.3
MODES
OF
OPEN
RESONATORS
.
277
8.2.4
DIFFRACTION
LOSSES
OF
OPEN
RESONATORS
.
279
8.2.5
THE
FREQUENCY
SPECTRUM
OF
OPTICAL
RESONATORS
.
279
8.3
SINGLE
MODE
LASERS
.
280
8.4
DIFFERENT
TYPES
OF
LASERS
.
283
8.4.1
SOLID-STATE
LASERS
.
283
8.4.2
SEMICONDUCTOR
LASERS
.
285
8.4.3
DYE
LASERS
.
286
8.4.4
GAS
LASERS
.
288
8.4.5
FREE
ELECTRON
LASER
.
291
8.5
NONLINEAR
OPTICS
.
292
8.5.1
OPTICAL
FREQUENCY
DOUBLING
.
293
8.5.2
PHASE
MATCHING
.
293
8.5.3
OPTICAL
FREQUENCY
MIXING
.
294
8.6
GENERATION
OF
SHORT
LASER
PULSES
.
295
8.6.1
Q-SWITCHED
LASERS
.
295
8.6.2
MODE-LOCKING
OF
LASERS
.
296
8.6.3
OPTICAL
PULSE
COMPRESSION
.
299
8.6.4
MEASUREMENTS
OF
ULTRASHORT
OPTICAL
PULSES
.
300
SUMMARY
.
302
PROBLEMS
.
303
REFERENCES
.
303
9
DIATOMIC
MOLECULES
.
305
9.1
THE
MOLECULAR
ION
.
305
9.1.1
THE
EXACT
SOLUTION
FOR
THE
RIGID
MOLECULE
.
306
9.1.2
MOLECULAR
ORBITALS
AND
LCAO
APPROXIMATIONS
.
309
9.1.3
IMPROVEMENTS
TO
THE
LCAO
ANSATZ
.
311
9.2
THE
H
2
MOLECULE
.
312
9.2.1
MOLECULAR
ORBITAL
APPROXIMATION
.
313
9.2.2
THE
HEITLER-LONDON
METHOD
.
314
9.2.3
COMPARISON
BETWEEN
THE
TWO
APPROXIMATIONS
.
314
9.2.4
IMPROVEMENTS
TO
THE
APPROXIMATIONS
.
315
9.3
ELECTRONIC
STATES
OF
DIATOMIC
MOLECULES
.
316
9.3.1
THE
ENERGETIC
ORDER
OF
ELECTRONIC
STATES
.
317
9.3.2
SYMMETRY
PROPERTIES
OF
ELECTRONIC
STATES
.
317
9.3.3
ELECTRONIC
ANGULAR
MOMENTA
.
318
9.3.4
ELECTRON
SPINS,
MULTIPLICITY
AND
FINE
STRUCTURE
SPLITTINGS
.
319
9.3.5
ELECTRON
CONFIGURATIONS
AND
MOLECULAR
GROUND
STATES
.
320
9.3.6
EXCITED
MOLECULAR
STATES
.
322
9.3.7
EXCIMERS
.
323
9.3.8
CORRELATION
DIAGRAMS
.
323
9.4
THE
PHYSICAL
REASONS
FOR
MOLECULAR
BINDING
.
324
9.4.1
THE
CHEMICAL
BOND
.
325
9.4.2
MULTIPOLE
INTERACTION
.
325
9.4.3
INDUCED
DIPOLE
MOMENTS
AND
VAN
DER
WAALS
POTENTIAL
.
327
9.4.4
GENERAL
EXPANSION
OF
THE
INTERACTION
POTENTIAL
.
330
9.4.5
THE
MORSE
POTENTIAL
.
330
9.4.6
DIFFERENT
BINDING
TYPES
.
331
9.5
ROTATION
AND
VIBRATION
OF
DIATOMIC
MOLECULES
.
332
9.5.1
THE
BORN-OPPENHEIMER
APPROXIMATION
.
332
9.5.2
THE
RIGID
ROTOR
.
334
9.5.3
CENTRIFUGAL
DISTORTION
.
335
9.5.4
THE
INFLUENCE
OF
THE
ELECTRON
MOTION
.
336
9.5.5
VIBRATIONS
OF
DIATOMIC
MOLECULES
.
337
9.5.6
INTERACTION
BETWEEN
ROTATION
AND
VIBRATION
.
338
9.5.7
THE
DUNHAM
EXPANSION
.
340
9.5.8
ROTATIONAL
BARRIER
.
340
9.6
SPECTRA
OF
DIATOMIC
MOLECULES
.
341
9.6.1
TRANSITION
MATRIX
ELEMENTS
.
342
9.6.2
VIBRATIONAL-ROTATIONAL
TRANSITIONS
.
343
9.6.3
THE
STRUCTURE
OF
ELECTRONIC
TRANSITIONS
.
346
9.6.4
CONTINUOUS
SPECTRA
.
350
SUMMARY
.
354
PROBLEMS
.
355
REFERENCES
.
355
10
POLYATOMIC
MOLECULES
.
357
10.1
ELECTRONIC
STATES
OF
POLYATOMIC
MOLECULES
.
357
10.1.1
THE
H
2
O
MOLECULE
.
357
10.1.2
HYBRIDIZATION
.
358
10.1.3
THE
CO
2
MOLECULE
.
361
10.1.4
WALSH
DIAGRAMS
.
362
10.2
MOLECULES
WITH
MORE
THAN
THREE
ATOMS
.
363
10.2.1
THE
NH
3
MOLECULE
.
364
10.2.2
FORMALDEHYDE
AND
OTHER
H2AB
MOLECULES
.
365
10.2.3
AROMATIC
MOLECULES
AND
N-ELECTRON
SYSTEMS
.
365
10.3
ROTATION
OF
POLYATOMIC
MOLECULES
.
367
10.3.1
ROTATION
OF
SYMMETRIC
TOP
MOLECULES
.
369
10.3.2
ASYMMETRIC
ROTOR
MOLECULES
.
371
10.4
VIBRATIONS
OF
POLYATOMIC
MOLECULES
.
371
10.4.1
NORMAL
VIBRATIONS
.
371
10.4.2
QUANTITATIVE
TREATMENT
.
372
10.4.3
COUPLINGS
BETWEEN
VIBRATIONS
AND
ROTATIONS
.
374
10.5
SPECTRA
OF
POLYATOMIC
MOLECULES
.
375
10.5.1
VIBRATIONAL
TRANSITIONS
WITHIN
THE
SAME
ELECTRONIC
STATE
.
376
10.5.2
ROTATIONAL
STRUCTURE
OF
VIBRATIONAL
BANDS
.
377
10.5.3
ELECTRONIC
TRANSITIONS
.
378
10.6
MOLECULAR
SYMMETRY
AND
SPECTROSCOPY
.
379
10.7
CLUSTERS
.
380
10.7.1
PRODUCTION
OF
CLUSTERS
.
382
10.7.2
PHYSICAL
PROPERTIES
OF
CLUSTERS
.
383
10.8
CHEMICAL
REACTIONS
.
384
10.8.1
FIRST
ORDER
REACTIONS
.
385
10.8.2
SECOND
ORDER
REACTIONS
.
385
10.8.3
EXOTHERMIC
AND
ENDOTHERMIC
REACTIONS
.
386
10.8.4
DETERMINATION
OF
ABSOLUTE
REACTION
RATES
.
387
10.9
MOLECULAR
DYNAMICS
AND
WAVE
PACKETS
.
388
SUMMARY
.
390
PROBLEMS
.
391
REFERENCES
.
391
11
EXPERIMENTAL
TECHNIQUES
IN
ATOMIC
AND
MOLECULAR
PHYSICS
.
393
11.1
BASIC
PRINCIPLES
OF
SPECTROSCOPIC
TECHNIQUES
.
394
11.2
SPECTROSCOPIC
INSTRUMENTS
.
395
11.2.1
SPECTROMETERS
.
395
11.2.2
INTERFEROMETERS
.
400
11.2.3
DETECTORS
.
404
11.3
MICRO
WAVE
SPECTROSCOPY
.
408
11.4
INFRARED
SPECTROSCOPY
.
410
11.4.1
INFRARED
SPECTROMETERS
.
410
11.4.2
FOURIER
TRANSFORM
SPECTROSCOPY
.
410
11.5
LASER
SPECTROSCOPY
.
414
11.5.1
LASER-ABSORPTION
SPECTROSCOPY
.
414
11.5.2
OPTOACOUSTIC
SPECTROSCOPY
.
415
11.5.3
OPTOGALVANIC
SPECTROSCOPY
.
416
11.5.4
CAVITY-RINGDOWN
SPECTROSCOPY
.
417
11.5.5
LASER-INDUCED
FLUORESCENCE
SPECTROSCOPY
.
419
11.5.6
IONIZATION
SPECTROSCOPY
.
420
11.5.7
LASER
SPECTROSCOPY
IN
MOLECULAR
BEAMS
.
422
11.5.8
NONLINEAR
LASER
SPECTROSCOPY
.
423
11.5.9
SATURATION
SPECTROSCOPY
.
424
11.5.10
DOPPLER-FREE
TWO-PHOTON
SPECTROSCOPY
.
426
11.6
RAMAN
SPECTROSCOPY
.
428
11.6.1
BASIC
PRINCIPLES
.
428
11.6.2
COHERENT
ANTI-STOKES
RAMAN
SPECTROSCOPY
.
429
11.7
SPECTROSCOPY
WITH
SYNCHROTRON
RADIATION
.
431
11.8
ELECTRON
SPECTROSCOPY
.
433
11.8.1
EXPERIMENTS
ON
ELECTRON
SCATTERING
.
433
11.8.2
PHOTOELECTRON
SPECTROSCOPY
.
434
11.8.3
ZEKE
SPECTROSCOPY
.
437
11.9
MEASUREMENTS
OF
MAGNETIC
AND
ELECTRIC
MOMENTS
IN
ATOMS
AND
MOLECULES
.
437
11.9.1
THE
RABI-METHOD
OF
RADIO-FREQUENCY
SPECTROSCOPY
.
438
11.9.2
STARK-SPECTROSCOPY
.
440
11.10
INVESTIGATIONS
OF
ATOMIC
AND
MOLECULAR
COLLISIONS
.
441
11.10.1
ELASTIC
SCATTERING
.
441
11.10.2
INELASTIC
SCATTERING
.
444
11.10.3
REACTIVE
SCATTERING
.
445
11.11
TIME-RESOLVED
MEASUREMENTS
OF
ATOMS
AND
MOLECULES
.
446
11.11.1
LIFETIME
MEASUREMENTS
.
446
11.11.2
FAST
RELAXATION
PROCESSES
IN
ATOMS
AND
MOLECULES
.
449
SUMMARY
.
450
PROBLEMS
.
451
REFERENCES
.
451
12
MODERN
DEVELOPMENTS
IN
ATOMIC
AND
MOLECULAR
PHYSICS
.
453
12.1
OPTICAL
COOLING
AND
TRAPPING
OF
ATOMS
.
453
12.1.1
PHOTON
RECOIL
.
453
12.1.2
OPTICAL
COOLING
OF
ATOMS
.
455
12.1.3
COOLING
LIMITS
.
456
12.1.4
OPTICAL
TRAPPING
OF
ATOMS
.
457
12.1.5
BOSE-EINSTEIN
CONDENSATION
.
459
12.1.6
ATOMIC
FOUNTAIN
.
461
12.1.7
MOLECULAR
SPECTROSCOPY
IN
A
MOT
.
461
12.1.8
OPTICAL
LATTICES
.
462
12.2
TIME-RESOLVED
SPECTROSCOPY
IN
THE
FEMTOSECOND
RANGE
.
463
12.2.1
TIME-RESOLVED
MOLECULAR
VIBRATIONS
.
463
12.2.2
FEMTOSECOND
TRANSITION
STATE
DYNAMICS
.
464
12.2.3
COHERENT
CONTROL
.
465
12.3
OPTICAL
METROLOGY
WITH
NEW
TECHNIQUES
.
467
12.3.1
FREQUENCY
COMB
.
467
12.3.2
ATOMIC
CLOCKS
WITH
TRAPPED
IONS
.
469
12.4
SQUEEZING
.
470
12.5
NEW
TRENDS
IN
QUANTUM
OPTICS
.
476
12.5.1
WHICH
WAY
EXPERIMENTS
.
476
12.5.2
THE
EINSTEIN-PODOLSKI-ROSEN
PARADOX
.
477
12.5.3
SCHRODINGER
*
S
CAT
.
478
12.5.4
ENTANGLEMENT
AND
QUANTUM
BITS
.
478
12.5.5
QUANTUM
GATES
.
480
SUMMARY
.
483
PROBLEMS
.
484
REFERENCES
.
484
CHRONOLOGICAL
TABLE
FOR
THE
DEVELOPMENT
OF
ATOMIC
AND
MOLECULAR
PHYSICS
.
487
SOLUTIONS
TO
THE
EXERCISES
.
491
INDEX
.
541 |
| any_adam_object | 1 |
| author | Demtröder, Wolfgang 1931- |
| author_GND | (DE-588)120579774 |
| author_facet | Demtröder, Wolfgang 1931- |
| author_role | aut |
| author_sort | Demtröder, Wolfgang 1931- |
| author_variant | w d wd |
| building | Verbundindex |
| bvnumber | BV044406471 |
| classification_rvk | UM 1000 |
| ctrlnum | (OCoLC)1089701234 (DE-599)DNB1135287805 |
| dewey-full | 530 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 530 - Physics |
| dewey-raw | 530 |
| dewey-search | 530 |
| dewey-sort | 3530 |
| dewey-tens | 530 - Physics |
| discipline | Physik |
| edition | Third edition |
| format | Book |
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| genre | (DE-588)4123623-3 Lehrbuch gnd-content |
| genre_facet | Lehrbuch |
| id | DE-604.BV044406471 |
| illustrated | Illustrated |
| indexdate | 2024-12-09T13:02:36Z |
| institution | BVB |
| institution_GND | (DE-588)1065168780 |
| isbn | 9783662555217 3662555212 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-029808383 |
| oclc_num | 1089701234 |
| open_access_boolean | |
| owner | DE-19 DE-BY-UBM DE-384 DE-188 DE-703 DE-20 DE-634 DE-11 |
| owner_facet | DE-19 DE-BY-UBM DE-384 DE-188 DE-703 DE-20 DE-634 DE-11 |
| physical | xviii, 551 Seiten Illustrationen, Diagramme 23.5 cm x 15.5 cm |
| publishDate | 2018 |
| publishDateSearch | 2018 |
| publishDateSort | 2018 |
| publisher | Springer |
| record_format | marc |
| series2 | Graduate texts in physics |
| spelling | Demtröder, Wolfgang 1931- Verfasser (DE-588)120579774 aut Atoms, molecules and photons an introduction to atomic-, molecular- and quantum physics Wolfgang Demtröder Third edition Berlin Springer [2018] © 2018 xviii, 551 Seiten Illustrationen, Diagramme 23.5 cm x 15.5 cm txt rdacontent n rdamedia nc rdacarrier Graduate texts in physics Enthält Literaturangaben und Index Quantenphysik (DE-588)4266670-3 gnd rswk-swf Molekülphysik (DE-588)4039979-5 gnd rswk-swf Atomphysik (DE-588)4003423-9 gnd rswk-swf PHM PHQ PHJ Dielectric Properties Condensed Matter Electromagnetic Radiation Experimental Techniques Optics Experimental Techniques Physics Optical Properties Condensed Matter Photons and Optics Semiconductor Physics Textbook Atomic Physics Textbook Demtroder Textbook Lasers Textbook Molecular Physics Textbook Quantum Physics Textbook Spectroscopy (DE-588)4123623-3 Lehrbuch gnd-content Atomphysik (DE-588)4003423-9 s Molekülphysik (DE-588)4039979-5 s Quantenphysik (DE-588)4266670-3 s DE-604 Springer-Verlag GmbH (DE-588)1065168780 pbl Erscheint auch als Online-Ausgabe, eBook 978-3-662-55523-1 X:MVB text/html http://deposit.dnb.de/cgi-bin/dokserv?id=0f6ddc6f7c384750b330c74c17bb8c92&prov=M&dok_var=1&dok_ext=htm Inhaltstext X:MVB http://www.springer.com/ DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029808383&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Demtröder, Wolfgang 1931- Atoms, molecules and photons an introduction to atomic-, molecular- and quantum physics Quantenphysik (DE-588)4266670-3 gnd Molekülphysik (DE-588)4039979-5 gnd Atomphysik (DE-588)4003423-9 gnd |
| subject_GND | (DE-588)4266670-3 (DE-588)4039979-5 (DE-588)4003423-9 (DE-588)4123623-3 |
| title | Atoms, molecules and photons an introduction to atomic-, molecular- and quantum physics |
| title_auth | Atoms, molecules and photons an introduction to atomic-, molecular- and quantum physics |
| title_exact_search | Atoms, molecules and photons an introduction to atomic-, molecular- and quantum physics |
| title_full | Atoms, molecules and photons an introduction to atomic-, molecular- and quantum physics Wolfgang Demtröder |
| title_fullStr | Atoms, molecules and photons an introduction to atomic-, molecular- and quantum physics Wolfgang Demtröder |
| title_full_unstemmed | Atoms, molecules and photons an introduction to atomic-, molecular- and quantum physics Wolfgang Demtröder |
| title_short | Atoms, molecules and photons |
| title_sort | atoms molecules and photons an introduction to atomic molecular and quantum physics |
| title_sub | an introduction to atomic-, molecular- and quantum physics |
| topic | Quantenphysik (DE-588)4266670-3 gnd Molekülphysik (DE-588)4039979-5 gnd Atomphysik (DE-588)4003423-9 gnd |
| topic_facet | Quantenphysik Molekülphysik Atomphysik Lehrbuch |
| url | http://deposit.dnb.de/cgi-bin/dokserv?id=0f6ddc6f7c384750b330c74c17bb8c92&prov=M&dok_var=1&dok_ext=htm http://www.springer.com/ http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029808383&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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