高等凝聚态物理=Advanced condensed matter physics 英文影印版
(美)桑德尔(L.M.Sander)著
1 (p1): 1 The nature of condensed matter
1 (p1-1): 1.1 Some basic orders of magnitude
3 (p1-2): 1.2 Quantum or classical
3 (p1-3): 1.3 Chemical bonds
5 (p1-4): 1.4 The exchange interaction
6 (p1-5): Suggested reading
6 (p1-6): Problems
8 (p2): 2 Order and disorder
9 (p2-1): 2.1 Ferromagnets
16 (p2-2): 2.2 Crystals
21 (p2-3): 2.3 Other ordered states
21 (p2-4): 2.4 Order parameters
22 (p2-5): 2.5 Disordered condensed matter
23 (p2-6): Suggested reading
23 (p2-7): Problems
25 (p3): 3 Crystals,scattering,and correlations
25 (p3-1): 3.1 Crystals
32 (p3-2): 3.2 Fourier analysis and the reciprocal lattice
37 (p3-3): 3.3 Scattering
46 (p3-4): 3.4 Correlation functions
50 (p3-5): Suggested reading
51 (p3-6): Problems
53 (p4): 4 Surfaces and crystal growth
53 (p4-1): 4.1 Observing surfaces:scanning tunneling microscopy
54 (p4-2): 4.2 Surfaces and surface tension
60 (p4-3): 4.3 Roughening
62 (p4-4): 4.4 Equilibrium crystal shapes
64 (p4-5): 4.5 Crystal growth
71 (p4-6): Suggested reading
71 (p4-7): Problems
73 (p5): 5 Classical and quantum waves
73 (p5-1): 5.1 Lattice vibrations and phonons
102 (p5-2): 5.2 Spin waves and magnons
107 (p5-3): 5.3 Neutron scattering
110 (p5-4): 5.4 M?ssbauer effect
111 (p5-5): 5.5 Two dimensions
112 (p5-6): Suggested reading
112 (p5-7): Problems
114 (p6): 6 The non-interacting electron model
114 (p6-1): 6.1 Sommerfeld model
120 (p6-2): 6.2 Thermally excited states and heat capacity
122 (p6-3): 6.3 Band theory
135 (p6-4): Suggested reading
135 (p6-5): Problems
139 (p7): 7 Dynamics of non-interacting electrons
139 (p7-1): 7.1 Drude model
141 (p7-2): 7.2 Transport in Sommerfeld theory
143 (p7-3): 7.3 Semiclassical theory of transport
146 (p7-4): 7.4 Scattering and the Boltzmann equation
151 (p7-5): 7.5 Donors and acceptors in semiconductors
152 (p7-6): 7.6 Excitons
153 (p7-7): 7.7 Semiconductor devices
156 (p7-8): 7.8 Large magnetic fields
168 (p7-9): Suggested reading
169 (p7-10): Problems
172 (p8): 8 Dielectric and optical properties
172 (p8-1):…
1 (p1-1): 1.1 Some basic orders of magnitude
3 (p1-2): 1.2 Quantum or classical
3 (p1-3): 1.3 Chemical bonds
5 (p1-4): 1.4 The exchange interaction
6 (p1-5): Suggested reading
6 (p1-6): Problems
8 (p2): 2 Order and disorder
9 (p2-1): 2.1 Ferromagnets
16 (p2-2): 2.2 Crystals
21 (p2-3): 2.3 Other ordered states
21 (p2-4): 2.4 Order parameters
22 (p2-5): 2.5 Disordered condensed matter
23 (p2-6): Suggested reading
23 (p2-7): Problems
25 (p3): 3 Crystals,scattering,and correlations
25 (p3-1): 3.1 Crystals
32 (p3-2): 3.2 Fourier analysis and the reciprocal lattice
37 (p3-3): 3.3 Scattering
46 (p3-4): 3.4 Correlation functions
50 (p3-5): Suggested reading
51 (p3-6): Problems
53 (p4): 4 Surfaces and crystal growth
53 (p4-1): 4.1 Observing surfaces:scanning tunneling microscopy
54 (p4-2): 4.2 Surfaces and surface tension
60 (p4-3): 4.3 Roughening
62 (p4-4): 4.4 Equilibrium crystal shapes
64 (p4-5): 4.5 Crystal growth
71 (p4-6): Suggested reading
71 (p4-7): Problems
73 (p5): 5 Classical and quantum waves
73 (p5-1): 5.1 Lattice vibrations and phonons
102 (p5-2): 5.2 Spin waves and magnons
107 (p5-3): 5.3 Neutron scattering
110 (p5-4): 5.4 M?ssbauer effect
111 (p5-5): 5.5 Two dimensions
112 (p5-6): Suggested reading
112 (p5-7): Problems
114 (p6): 6 The non-interacting electron model
114 (p6-1): 6.1 Sommerfeld model
120 (p6-2): 6.2 Thermally excited states and heat capacity
122 (p6-3): 6.3 Band theory
135 (p6-4): Suggested reading
135 (p6-5): Problems
139 (p7): 7 Dynamics of non-interacting electrons
139 (p7-1): 7.1 Drude model
141 (p7-2): 7.2 Transport in Sommerfeld theory
143 (p7-3): 7.3 Semiclassical theory of transport
146 (p7-4): 7.4 Scattering and the Boltzmann equation
151 (p7-5): 7.5 Donors and acceptors in semiconductors
152 (p7-6): 7.6 Excitons
153 (p7-7): 7.7 Semiconductor devices
156 (p7-8): 7.8 Large magnetic fields
168 (p7-9): Suggested reading
169 (p7-10): Problems
172 (p8): 8 Dielectric and optical properties
172 (p8-1):…
साल:
2014
संस्करण:
2014
भाषा:
Chinese
फ़ाइल:
PDF, 49.35 MB
IPFS:
,
Chinese, 2014