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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

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
Language
eng
Member of
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
Publication
Bibliography note
Includes bibliographical references
Carrier category
volume
Carrier category code
  • nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
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
  • n
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
  • nc
Carrier MARC source
rdacarrier
Content category
text
Content type code
  • txt
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
  • n
Other physical details
illustrations

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