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The Resource More is different : fifty years of condensed matter physics, edited by N. Phuan Ong and Ravin N. Bhatt

More is different : fifty years of condensed matter physics, edited by N. Phuan Ong and Ravin N. Bhatt

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The item More is different : fifty years of condensed matter physics, edited by N. Phuan Ong and Ravin N. Bhatt represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Missouri Libraries.
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Contributor

Language: eng

Work

Publication

Princeton, Princeton University Press, ©2001

Extent: xvii, 345 pages

Contents

2
Patrick A. Lee
63
5.2
Review of RVB Theory
64
5.3
Projected Wavefunctions and Staggered Current Fluctuations
68
6
Angle-Resolved Photoemission Results in Cuprates
Localization Yesterday, Today, Tomorrow
75 --
J.C. Campuzano
75
6.2
Nature of the Electronic States
76
6.3
Excitations at the Fermi Surface
77
6.4
9 --
Quasiparticles in the Superconducting State
80
6.5
New Energy Scales in the Superconducting State
82
7
Spin Excitations in Copper Oxide Superconductors
91 --
B. Keimer
91
T.V. Ramakrishnan
7.2
Neutron Spectroscopy Results in Cuprates
92
7.3
Stripe Formation in La[subscript 2 -- x]Sr[subscript x]CuO[subscript 4]
94
7.4
Magnetic Resonance Peak in Cuprates
95
7.5
9
Origin of the Resonance Peak
97
8
Anderson's Theory of High-T[subscript c] Superconductivity
103 --
G. Baskaran
103
8.2
RVB Theory of 1987
104
2.1
8.3
Three Aspects of Anderson's 1987 Mechanism
110
8.4
Some Comments on Anderson's Solution
112
9
Quantum Confinement and Cuprate Criticality
121 --
T. Senthil, Matthew P.A. Fisher
Absence of Diffusion in Random Lattices
121
9.2
Experiments
122
9.3
Novel Excitations
122
9.4
Z[subscript 2] Gauge Theory
123
9
9.5
Phase Diagram
123
9.6
Chargon Condensation and Superconductivity
127
9.7
Quantum Confinement Critical Point
128
9.8
2.1.1
Experimental Implications
130
9.9
Comparison with Anderson's RVB State
132
10
Spin-Triplet Superconductivity of Sr[subscript 2]RuO[subscript 4]
135 --
Y. Maeno
135
Experimental Background
10.2
Quasi-2D Fermi Liquid Properties
137
10.3
Spin-Triplet Superconductivity
138
10.4
Anisotropy of the Superconducting Gap
141
10.5
1950 to Y2K
9
H -- T Phase Diagram
143
11
Triplet Quasi-One-Dimensional Superconductors
151 --
S.E. Brown, M.J. Naughton, I.J. Lee, E.I. Chashechkina, P.M. Chaikin
151
11.2
Early Results on P-Wave Pairing
153
2.1.2
11.3
Dimensionality Reduction in a Magnetic Field
154
11.4
Interlayer Decoupling
156
11.5
Recent Experiments on Spin Pairing
161
12
Localization Idea
Magnetic Moments in Metals
173 --
H.R. Ott
173
12.2
Heavy (Slow) Electrons
177
12.3
Coexistence of magnetic order and heavy electrons
180
10
12.4
Non-Fermi-liquid features of heavy-electron metals
182
12.5
Superconductivity of heavy electron metals
183
13
Superconductivity and Magnetism in Heavy-Fermions
191 --
F. Steglich
2.1.3
191
13.2
Magnetic-exciton mediated superconductivity
194
13.3
Antiferromagnetism and Superconductivity
197
13.4
Heavy-Fermions Metals near a Magnetic Instability
203
Related Developments
13.5
Outlook
206
14
Mott Transition
211 --
G. Kotliar
211
14.2
Model Hamiltonian
11
212
14.3
Mean Field Theory
214
14.4
Spectral Functions of Strongly Correlated States
219
14.5
Anomalous Resistivity and Spectral Weight
222
2.1.4
14.6
Mott Transition as a Bifurcation
226
14.7
Extensions of Dynamical Mean Field Methods
230
15
First Steps in Glass Theory
237 --
Marc Mezard
Consequences of Localization
237
15.2
Mathematics
237
15.3
Experiments
238
15.4
A mean-field spin-glass analogy
240
12
15.5
A lesson from mean-field: many valleys
243
15.6
Beyond the analogy: first-principles computation
246
16
Geometrical Frustration and Marginal Constraint
255 --
A.P. Ramirez
E. Abrahams
2.1.5
255
16.2
Geometrical Frustration
256
16.3
Ordinary water ice
259
16.4
Spin ice in Pyrochlores
260
Localization as a General Feature of Disorder
16.5
Kagome-like systems
262
16.6
Geometrical frustration in non-magnetic systems
264
17
Olfaction and color vision: More is simpler
269 --
J.J. Hopfield
13
269
17.1
Color vision
270
17.2
Olfaction
271
17.3
Comparative problems of vision and olfaction
272
2.2
17.4
Logarithmic distribution of odorant binding constants
272
17.5
Odorant modeling
273
17.6
Olfactory tasks in a least-squared error algorithm
275
17.7
Scaling and Weak Localization
An approach through large-n
276
17.8
On the large number n of cell types: More is simpler
280
17.9
Separation of two unknown odors
281
17.10
More is simpler
14
284
18
Screening and giant charge inversion in electrolytes
285 --
T.T. Nguyen, A. Yu. Grosberg, B.I. Shklovskii
285
18.2
Screening of charged surface by spherical Z-ions
292
18.3
2.2.1
Long charged rods as Z-ions
297
19
Forest Fires and Luminous Matter in the Universe
301 --
Per Bak, Kan Chen
301
19.2
Forest Fire Model
303
Thouless Conductance
19.3
Scale-Dependent Dimension of Luminous Matter
306
19.4
Forest fires and Measles
310
20
Complexity in Cosmology
313 --
L. Pietronero
14
313
20.2
Fractal Structures and Self Organization
314
20.3
Reconstructing the Puzzle
319
20.3.1
Scaling Properties and Data Analysis
321
2.2.2
20.3.2
Implications of fractal structure up to [lambda subscript 0]
324
20.4
Fractal Cosmology in an Open Universe
326
21
Statistical Physics and Computational Complexity
331 --
S. Kirkpatrick, B. Selman
xv
Scaling Theory
331
21.2
Satisfiability and Hard-Problem Instances
332
21.3
Connections to Statistical Physics
336
21.4
A closer look at the phase transition
337
15
21.5
Mixtures of 2-SAT and 3-SAT problems
339
2.2.3
Weak Localization
16
2.2.4
Theoretical Developments
18
2.2.5
Mesoscopic Systems and Phenomena
1
21
2.2.6
Other Excitations
21
2.3
Tomorrow
23
2.3.1
Glass and Spin Glass
23
More is Different--One More Time
2.3.2
Superconductor-Insulator Transition
23
2.3.3
Metal-Insulator Transition in 2D
24
2.3.4
Decoherence in Disordered Conductors
25
2.3.5
1 --
Localization in Manganites
27
3
Metal-Insulator Transitions in Disordered Systems
33 --
Myriam P. Sarachik
33
3.1
Critical Exponent Puzzle in 3D
33
Philip W. Anderson
3.2
Novel Phenomena in Dilute 2D Systems: New Physics or Old?
42
4
Nature of Superfluid [superscript 3]He in Silica Aerogel
47 --
D.D. Osheroff, B.I. Barker, Y. Lee
47
4.2
Results of the First Study
1
51
4.3
Results of the Second Study
54
4.4
Comparison with Previous Results
59
5
RVB Description of High-T[subscript c] Superconductors
63 --

Isbn: 9780691088655

Instance

Label: More is different : fifty years of condensed matter physics

Title: More is different

Title remainder: fifty years of condensed matter physics

Statement of responsibility: edited by N. Phuan Ong and Ravin N. Bhatt

Contributor

Subject

Condensed matter

Language: eng

Member of

Princeton series in physics

Cataloging source: DLC

Dewey number: 530.4/1

Illustrations: illustrations

Index: no index present

LC call number: QC173.454

LC item number: .M67 2001

Literary form: non fiction

Nature of contents: bibliography

http://library.link/vocab/relatedWorkOrContributorDate

1948-
1952-

http://library.link/vocab/relatedWorkOrContributorName

Ong, N. Phuan
Bhatt, Ravin N.

Series statement: Princeton series in physics

http://library.link/vocab/subjectName: Condensed matter

Label: More is different : fifty years of condensed matter physics, edited by N. Phuan Ong and Ravin N. Bhatt

Instantiates

More is different : fifty years of condensed matter physics

Publication

Princeton, Princeton University Press, ©2001

Bibliography note: Includes bibliographical references

Carrier category: volume

Carrier category code

Carrier MARC source: rdacarrier

Content category: text

Content type code

Content type MARC source: rdacontent

Contents

2
Patrick A. Lee
63
5.2
Review of RVB Theory
64
5.3
Projected Wavefunctions and Staggered Current Fluctuations
68
6
Angle-Resolved Photoemission Results in Cuprates
Localization Yesterday, Today, Tomorrow
75 --
J.C. Campuzano
75
6.2
Nature of the Electronic States
76
6.3
Excitations at the Fermi Surface
77
6.4
9 --
Quasiparticles in the Superconducting State
80
6.5
New Energy Scales in the Superconducting State
82
7
Spin Excitations in Copper Oxide Superconductors
91 --
B. Keimer
91
T.V. Ramakrishnan
7.2
Neutron Spectroscopy Results in Cuprates
92
7.3
Stripe Formation in La[subscript 2 -- x]Sr[subscript x]CuO[subscript 4]
94
7.4
Magnetic Resonance Peak in Cuprates
95
7.5
9
Origin of the Resonance Peak
97
8
Anderson's Theory of High-T[subscript c] Superconductivity
103 --
G. Baskaran
103
8.2
RVB Theory of 1987
104
2.1
8.3
Three Aspects of Anderson's 1987 Mechanism
110
8.4
Some Comments on Anderson's Solution
112
9
Quantum Confinement and Cuprate Criticality
121 --
T. Senthil, Matthew P.A. Fisher
Absence of Diffusion in Random Lattices
121
9.2
Experiments
122
9.3
Novel Excitations
122
9.4
Z[subscript 2] Gauge Theory
123
9
9.5
Phase Diagram
123
9.6
Chargon Condensation and Superconductivity
127
9.7
Quantum Confinement Critical Point
128
9.8
2.1.1
Experimental Implications
130
9.9
Comparison with Anderson's RVB State
132
10
Spin-Triplet Superconductivity of Sr[subscript 2]RuO[subscript 4]
135 --
Y. Maeno
135
Experimental Background
10.2
Quasi-2D Fermi Liquid Properties
137
10.3
Spin-Triplet Superconductivity
138
10.4
Anisotropy of the Superconducting Gap
141
10.5
1950 to Y2K
9
H -- T Phase Diagram
143
11
Triplet Quasi-One-Dimensional Superconductors
151 --
S.E. Brown, M.J. Naughton, I.J. Lee, E.I. Chashechkina, P.M. Chaikin
151
11.2
Early Results on P-Wave Pairing
153
2.1.2
11.3
Dimensionality Reduction in a Magnetic Field
154
11.4
Interlayer Decoupling
156
11.5
Recent Experiments on Spin Pairing
161
12
Localization Idea
Magnetic Moments in Metals
173 --
H.R. Ott
173
12.2
Heavy (Slow) Electrons
177
12.3
Coexistence of magnetic order and heavy electrons
180
10
12.4
Non-Fermi-liquid features of heavy-electron metals
182
12.5
Superconductivity of heavy electron metals
183
13
Superconductivity and Magnetism in Heavy-Fermions
191 --
F. Steglich
2.1.3
191
13.2
Magnetic-exciton mediated superconductivity
194
13.3
Antiferromagnetism and Superconductivity
197
13.4
Heavy-Fermions Metals near a Magnetic Instability
203
Related Developments
13.5
Outlook
206
14
Mott Transition
211 --
G. Kotliar
211
14.2
Model Hamiltonian
11
212
14.3
Mean Field Theory
214
14.4
Spectral Functions of Strongly Correlated States
219
14.5
Anomalous Resistivity and Spectral Weight
222
2.1.4
14.6
Mott Transition as a Bifurcation
226
14.7
Extensions of Dynamical Mean Field Methods
230
15
First Steps in Glass Theory
237 --
Marc Mezard
Consequences of Localization
237
15.2
Mathematics
237
15.3
Experiments
238
15.4
A mean-field spin-glass analogy
240
12
15.5
A lesson from mean-field: many valleys
243
15.6
Beyond the analogy: first-principles computation
246
16
Geometrical Frustration and Marginal Constraint
255 --
A.P. Ramirez
E. Abrahams
2.1.5
255
16.2
Geometrical Frustration
256
16.3
Ordinary water ice
259
16.4
Spin ice in Pyrochlores
260
Localization as a General Feature of Disorder
16.5
Kagome-like systems
262
16.6
Geometrical frustration in non-magnetic systems
264
17
Olfaction and color vision: More is simpler
269 --
J.J. Hopfield
13
269
17.1
Color vision
270
17.2
Olfaction
271
17.3
Comparative problems of vision and olfaction
272
2.2
17.4
Logarithmic distribution of odorant binding constants
272
17.5
Odorant modeling
273
17.6
Olfactory tasks in a least-squared error algorithm
275
17.7
Scaling and Weak Localization
An approach through large-n
276
17.8
On the large number n of cell types: More is simpler
280
17.9
Separation of two unknown odors
281
17.10
More is simpler
14
284
18
Screening and giant charge inversion in electrolytes
285 --
T.T. Nguyen, A. Yu. Grosberg, B.I. Shklovskii
285
18.2
Screening of charged surface by spherical Z-ions
292
18.3
2.2.1
Long charged rods as Z-ions
297
19
Forest Fires and Luminous Matter in the Universe
301 --
Per Bak, Kan Chen
301
19.2
Forest Fire Model
303
Thouless Conductance
19.3
Scale-Dependent Dimension of Luminous Matter
306
19.4
Forest fires and Measles
310
20
Complexity in Cosmology
313 --
L. Pietronero
14
313
20.2
Fractal Structures and Self Organization
314
20.3
Reconstructing the Puzzle
319
20.3.1
Scaling Properties and Data Analysis
321
2.2.2
20.3.2
Implications of fractal structure up to [lambda subscript 0]
324
20.4
Fractal Cosmology in an Open Universe
326
21
Statistical Physics and Computational Complexity
331 --
S. Kirkpatrick, B. Selman
xv
Scaling Theory
331
21.2
Satisfiability and Hard-Problem Instances
332
21.3
Connections to Statistical Physics
336
21.4
A closer look at the phase transition
337
15
21.5
Mixtures of 2-SAT and 3-SAT problems
339
2.2.3
Weak Localization
16
2.2.4
Theoretical Developments
18
2.2.5
Mesoscopic Systems and Phenomena
1
21
2.2.6
Other Excitations
21
2.3
Tomorrow
23
2.3.1
Glass and Spin Glass
23
More is Different--One More Time
2.3.2
Superconductor-Insulator Transition
23
2.3.3
Metal-Insulator Transition in 2D
24
2.3.4
Decoherence in Disordered Conductors
25
2.3.5
1 --
Localization in Manganites
27
3
Metal-Insulator Transitions in Disordered Systems
33 --
Myriam P. Sarachik
33
3.1
Critical Exponent Puzzle in 3D
33
Philip W. Anderson
3.2
Novel Phenomena in Dilute 2D Systems: New Physics or Old?
42
4
Nature of Superfluid [superscript 3]He in Silica Aerogel
47 --
D.D. Osheroff, B.I. Barker, Y. Lee
47
4.2
Results of the First Study
1
51
4.3
Results of the Second Study
54
4.4
Comparison with Previous Results
59
5
RVB Description of High-T[subscript c] Superconductors
63 --

Control code: 46908132

Dimensions: 24 cm

Extent: xvii, 345 pages

Isbn: 9780691088655

Isbn Type: (cloth : alk. paper)

Lccn: 2001027847

Media category: unmediated

Media MARC source: rdamedia

Media type code

Other physical details: illustrations

Label: More is different : fifty years of condensed matter physics, edited by N. Phuan Ong and Ravin N. Bhatt

Publication

Bibliography note: Includes bibliographical references

Carrier category: volume

Carrier category code

Carrier MARC source: rdacarrier

Content category: text

Content type code

Content type MARC source: rdacontent

Contents

2
Patrick A. Lee
63
5.2
Review of RVB Theory
64
5.3
Projected Wavefunctions and Staggered Current Fluctuations
68
6
Angle-Resolved Photoemission Results in Cuprates
Localization Yesterday, Today, Tomorrow
75 --
J.C. Campuzano
75
6.2
Nature of the Electronic States
76
6.3
Excitations at the Fermi Surface
77
6.4
9 --
Quasiparticles in the Superconducting State
80
6.5
New Energy Scales in the Superconducting State
82
7
Spin Excitations in Copper Oxide Superconductors
91 --
B. Keimer
91
T.V. Ramakrishnan
7.2
Neutron Spectroscopy Results in Cuprates
92
7.3
Stripe Formation in La[subscript 2 -- x]Sr[subscript x]CuO[subscript 4]
94
7.4
Magnetic Resonance Peak in Cuprates
95
7.5
9
Origin of the Resonance Peak
97
8
Anderson's Theory of High-T[subscript c] Superconductivity
103 --
G. Baskaran
103
8.2
RVB Theory of 1987
104
2.1
8.3
Three Aspects of Anderson's 1987 Mechanism
110
8.4
Some Comments on Anderson's Solution
112
9
Quantum Confinement and Cuprate Criticality
121 --
T. Senthil, Matthew P.A. Fisher
Absence of Diffusion in Random Lattices
121
9.2
Experiments
122
9.3
Novel Excitations
122
9.4
Z[subscript 2] Gauge Theory
123
9
9.5
Phase Diagram
123
9.6
Chargon Condensation and Superconductivity
127
9.7
Quantum Confinement Critical Point
128
9.8
2.1.1
Experimental Implications
130
9.9
Comparison with Anderson's RVB State
132
10
Spin-Triplet Superconductivity of Sr[subscript 2]RuO[subscript 4]
135 --
Y. Maeno
135
Experimental Background
10.2
Quasi-2D Fermi Liquid Properties
137
10.3
Spin-Triplet Superconductivity
138
10.4
Anisotropy of the Superconducting Gap
141
10.5
1950 to Y2K
9
H -- T Phase Diagram
143
11
Triplet Quasi-One-Dimensional Superconductors
151 --
S.E. Brown, M.J. Naughton, I.J. Lee, E.I. Chashechkina, P.M. Chaikin
151
11.2
Early Results on P-Wave Pairing
153
2.1.2
11.3
Dimensionality Reduction in a Magnetic Field
154
11.4
Interlayer Decoupling
156
11.5
Recent Experiments on Spin Pairing
161
12
Localization Idea
Magnetic Moments in Metals
173 --
H.R. Ott
173
12.2
Heavy (Slow) Electrons
177
12.3
Coexistence of magnetic order and heavy electrons
180
10
12.4
Non-Fermi-liquid features of heavy-electron metals
182
12.5
Superconductivity of heavy electron metals
183
13
Superconductivity and Magnetism in Heavy-Fermions
191 --
F. Steglich
2.1.3
191
13.2
Magnetic-exciton mediated superconductivity
194
13.3
Antiferromagnetism and Superconductivity
197
13.4
Heavy-Fermions Metals near a Magnetic Instability
203
Related Developments
13.5
Outlook
206
14
Mott Transition
211 --
G. Kotliar
211
14.2
Model Hamiltonian
11
212
14.3
Mean Field Theory
214
14.4
Spectral Functions of Strongly Correlated States
219
14.5
Anomalous Resistivity and Spectral Weight
222
2.1.4
14.6
Mott Transition as a Bifurcation
226
14.7
Extensions of Dynamical Mean Field Methods
230
15
First Steps in Glass Theory
237 --
Marc Mezard
Consequences of Localization
237
15.2
Mathematics
237
15.3
Experiments
238
15.4
A mean-field spin-glass analogy
240
12
15.5
A lesson from mean-field: many valleys
243
15.6
Beyond the analogy: first-principles computation
246
16
Geometrical Frustration and Marginal Constraint
255 --
A.P. Ramirez
E. Abrahams
2.1.5
255
16.2
Geometrical Frustration
256
16.3
Ordinary water ice
259
16.4
Spin ice in Pyrochlores
260
Localization as a General Feature of Disorder
16.5
Kagome-like systems
262
16.6
Geometrical frustration in non-magnetic systems
264
17
Olfaction and color vision: More is simpler
269 --
J.J. Hopfield
13
269
17.1
Color vision
270
17.2
Olfaction
271
17.3
Comparative problems of vision and olfaction
272
2.2
17.4
Logarithmic distribution of odorant binding constants
272
17.5
Odorant modeling
273
17.6
Olfactory tasks in a least-squared error algorithm
275
17.7
Scaling and Weak Localization
An approach through large-n
276
17.8
On the large number n of cell types: More is simpler
280
17.9
Separation of two unknown odors
281
17.10
More is simpler
14
284
18
Screening and giant charge inversion in electrolytes
285 --
T.T. Nguyen, A. Yu. Grosberg, B.I. Shklovskii
285
18.2
Screening of charged surface by spherical Z-ions
292
18.3
2.2.1
Long charged rods as Z-ions
297
19
Forest Fires and Luminous Matter in the Universe
301 --
Per Bak, Kan Chen
301
19.2
Forest Fire Model
303
Thouless Conductance
19.3
Scale-Dependent Dimension of Luminous Matter
306
19.4
Forest fires and Measles
310
20
Complexity in Cosmology
313 --
L. Pietronero
14
313
20.2
Fractal Structures and Self Organization
314
20.3
Reconstructing the Puzzle
319
20.3.1
Scaling Properties and Data Analysis
321
2.2.2
20.3.2
Implications of fractal structure up to [lambda subscript 0]
324
20.4
Fractal Cosmology in an Open Universe
326
21
Statistical Physics and Computational Complexity
331 --
S. Kirkpatrick, B. Selman
xv
Scaling Theory
331
21.2
Satisfiability and Hard-Problem Instances
332
21.3
Connections to Statistical Physics
336
21.4
A closer look at the phase transition
337
15
21.5
Mixtures of 2-SAT and 3-SAT problems
339
2.2.3
Weak Localization
16
2.2.4
Theoretical Developments
18
2.2.5
Mesoscopic Systems and Phenomena
1
21
2.2.6
Other Excitations
21
2.3
Tomorrow
23
2.3.1
Glass and Spin Glass
23
More is Different--One More Time
2.3.2
Superconductor-Insulator Transition
23
2.3.3
Metal-Insulator Transition in 2D
24
2.3.4
Decoherence in Disordered Conductors
25
2.3.5
1 --
Localization in Manganites
27
3
Metal-Insulator Transitions in Disordered Systems
33 --
Myriam P. Sarachik
33
3.1
Critical Exponent Puzzle in 3D
33
Philip W. Anderson
3.2
Novel Phenomena in Dilute 2D Systems: New Physics or Old?
42
4
Nature of Superfluid [superscript 3]He in Silica Aerogel
47 --
D.D. Osheroff, B.I. Barker, Y. Lee
47
4.2
Results of the First Study
1
51
4.3
Results of the Second Study
54
4.4
Comparison with Previous Results
59
5
RVB Description of High-T[subscript c] Superconductors
63 --

Control code: 46908132

Dimensions: 24 cm

Extent: xvii, 345 pages

Isbn: 9780691088655

Isbn Type: (cloth : alk. paper)

Lccn: 2001027847

Media category: unmediated

Media MARC source: rdamedia

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Other physical details: illustrations

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