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|a 1197551794
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|a 9780691219530
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|a 0691219532
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|z 0691088659
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|a (OCoLC)1199341649
|z (OCoLC)1197551794
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|a 22573/ctv16sx3hp
|b JSTOR
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|a QC173.454
|b .M67 2001eb
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|a SCI
|x 055000
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|a UB 2455
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|a UAMI
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|a More is different :
|b fifty years of condensed matter physics /
|c edited by N. Phuan Ong and Ravin N. Bhatt.
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|a Princeton, N.J. :
|b Princeton University Press,
|c ©2001.
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| 300 |
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|a 1 online resource (xvii, 345 pages) :
|b illustrations
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|a text
|b txt
|2 rdacontent
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|a computer
|b c
|2 rdamedia
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|a online resource
|b cr
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|a Princeton series in physics
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|a Includes bibliographical references.
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|t 1950 to Y2K /
|r E. Abrahams
|g xv --
|g 1
|t More is Different--One More Time
|g 1 -- /
|r Philip W. Anderson
|g 1 --
|g 2
|t Localization Yesterday, Today, Tomorrow
|g 9 -- /
|r T.V. Ramakrishnan
|g 9 --
|g 2.1
|t Absence of Diffusion in Random Lattices
|g 9 --
|g 2.1.1
|t Experimental Background
|g 9 --
|g 2.1.2
|t Localization Idea
|g 10 --
|g 2.1.3
|t Related Developments
|g 11 --
|g 2.1.4
|t Consequences of Localization
|g 12 --
|g 2.1.5
|t Localization as a General Feature of Disorder
|g 13 --
|g 2.2
|t Scaling and Weak Localization
|g 14 --
|g 2.2.1
|t Thouless Conductance
|g 14 --
|g 2.2.2
|t Scaling Theory
|g 15 --
|g 2.2.3
|t Weak Localization
|g 16 --
|g 2.2.4
|t Theoretical Developments
|g 18 --
|g 2.2.5
|t Mesoscopic Systems and Phenomena
|g 21 --
|g 2.2.6
|t Other Excitations
|g 21 --
|g 2.3
|t Tomorrow
|g 23 --
|g 2.3.1
|t Glass and Spin Glass
|g 23 --
|g 2.3.2
|t Superconductor-Insulator Transition
|g 23 --
|g 2.3.3
|t Metal-Insulator Transition in 2D
|g 24 --
|g 2.3.4
|t Decoherence in Disordered Conductors
|g 25 --
|g 2.3.5
|t Localization in Manganites
|g 27 --
|g 3
|t Metal-Insulator Transitions in Disordered Systems
|g 33 -- /
|r Myriam P. Sarachik
|g 33 --
|g 3.1
|t Critical Exponent Puzzle in 3D
|g 33 --
|g 3.2
|t Novel Phenomena in Dilute 2D Systems: New Physics or Old?
|g 42 --
|g 4
|t Nature of Superfluid [superscript 3]He in Silica Aerogel
|g 47 -- /
|r D.D. Osheroff, B.I. Barker, Y. Lee
|g 47 --
|g 4.2
|t Results of the First Study
|g 51 --
|g 4.3
|t Results of the Second Study
|g 54 --
|g 4.4
|t Comparison with Previous Results
|g 59 --
|g 5
|t RVB Description of High-T[subscript c] Superconductors
|g 63 -- /
|r Patrick A. Lee
|g 63 --
|g 5.2
|t Review of RVB Theory
|g 64 --
|g 5.3
|t Projected Wavefunctions and Staggered Current Fluctuations
|g 68 --
|g 6
|t Angle-Resolved Photoemission Results in Cuprates
|g 75 -- /
|r J.C. Campuzano
|g 75 --
|g 6.2
|t Nature of the Electronic States
|g 76 --
|g 6.3
|t Excitations at the Fermi Surface
|g 77 --
|g 6.4
|t Quasiparticles in the Superconducting State
|g 80 --
|g 6.5
|t New Energy Scales in the Superconducting State
|g 82 --
|g 7
|t Spin Excitations in Copper Oxide Superconductors
|g 91 -- /
|r B. Keimer
|g 91 --
|g 7.2
|t Neutron Spectroscopy Results in Cuprates
|g 92 --
|g 7.3
|t Stripe Formation in La[subscript 2 -- x]Sr[subscript x]CuO[subscript 4]
|g 94 --
|g 7.4
|t Magnetic Resonance Peak in Cuprates
|g 95 --
|g 7.5
|t Origin of the Resonance Peak
|g 97 --
|g 8
|t Anderson's Theory of High-T[subscript c] Superconductivity
|g 103 -- /
|r G. Baskaran
|g 103 --
|g 8.2
|t RVB Theory of 1987
|g 104 --
|g 8.3
|t Three Aspects of Anderson's 1987 Mechanism
|g 110 --
|g 8.4
|t Some Comments on Anderson's Solution
|g 112 --
|g 9
|t Quantum Confinement and Cuprate Criticality
|g 121 -- /
|r T. Senthil, Matthew P.A. Fisher
|g 121 --
|g 9.2
|t Experiments
|g 122 --
|g 9.3
|t Novel Excitations
|g 122 --
|g 9.4
|t Z[subscript 2] Gauge Theory
|g 123 --
|g 9.5
|t Phase Diagram
|g 123 --
|g 9.6
|t Chargon Condensation and Superconductivity
|g 127 --
|g 9.7
|t Quantum Confinement Critical Point
|g 128 --
|g 9.8
|t Experimental Implications
|g 130 --
|g 9.9
|t Comparison with Anderson's RVB State
|g 132 --
|g 10
|t Spin-Triplet Superconductivity of Sr[subscript 2]RuO[subscript 4]
|g 135 -- /
|r Y. Maeno
|g 135 --
|g 10.2
|t Quasi-2D Fermi Liquid Properties
|g 137 --
|g 10.3
|t Spin-Triplet Superconductivity
|g 138 --
|g 10.4
|t Anisotropy of the Superconducting Gap
|g 141 --
|g 10.5
|t H -- T Phase Diagram
|g 143 --
|g 11
|t Triplet Quasi-One-Dimensional Superconductors
|g 151 -- /
|r S.E. Brown, M.J. Naughton, I.J. Lee, E.I. Chashechkina, P.M. Chaikin
|g 151 --
|g 11.2
|t Early Results on P-Wave Pairing
|g 153 --
|g 11.3
|t Dimensionality Reduction in a Magnetic Field
|g 154 --
|g 11.4
|t Interlayer Decoupling
|g 156 --
|g 11.5
|t Recent Experiments on Spin Pairing
|g 161 --
|g 12
|t Magnetic Moments in Metals
|g 173 -- /
|r H.R. Ott
|g 173 --
|g 12.2
|t Heavy (Slow) Electrons
|g 177 --
|g 12.3
|t Coexistence of magnetic order and heavy electrons
|g 180 --
|g 12.4
|t Non-Fermi-liquid features of heavy-electron metals
|g 182 --
|g 12.5
|t Superconductivity of heavy electron metals
|g 183 --
|g 13
|t Superconductivity and Magnetism in Heavy-Fermions
|g 191 -- /
|r F. Steglich
|g 191 --
|g 13.2
|t Magnetic-exciton mediated superconductivity
|g 194 --
|g 13.3
|t Antiferromagnetism and Superconductivity
|g 197 --
|g 13.4
|t Heavy-Fermions Metals near a Magnetic Instability
|g 203 --
|g 13.5
|t Outlook
|g 206 --
|g 14
|t Mott Transition
|g 211 -- /
|r G. Kotliar
|g 211 --
|g 14.2
|t Model Hamiltonian
|g 212 --
|g 14.3
|t Mean Field Theory
|g 214 --
|g 14.4
|t Spectral Functions of Strongly Correlated States
|g 219 --
|g 14.5
|t Anomalous Resistivity and Spectral Weight
|g 222 --
|g 14.6
|t Mott Transition as a Bifurcation
|g 226 --
|g 14.7
|t Extensions of Dynamical Mean Field Methods
|g 230 --
|g 15
|t First Steps in Glass Theory
|g 237 -- /
|r Marc Mezard
|g 237 --
|g 15.2
|t Mathematics
|g 237 --
|g 15.3
|t Experiments
|g 238 --
|g 15.4
|t A mean-field spin-glass analogy
|g 240 --
|g 15.5
|t A lesson from mean-field: many valleys
|g 243 --
|g 15.6
|t Beyond the analogy: first-principles computation
|g 246 --
|g 16
|t Geometrical Frustration and Marginal Constraint
|g 255 -- /
|r A.P. Ramirez
|g 255 --
|g 16.2
|t Geometrical Frustration
|g 256 --
|g 16.3
|t Ordinary water ice
|g 259 --
|g 16.4
|t Spin ice in Pyrochlores
|g 260 --
|g 16.5
|t Kagome-like systems
|g 262 --
|g 16.6
|t Geometrical frustration in non-magnetic systems
|g 264 --
|g 17
|t Olfaction and color vision: More is simpler
|g 269 -- /
|r J.J. Hopfield
|g 269 --
|g 17.1
|t Color vision
|g 270 --
|g 17.2
|t Olfaction
|g 271 --
|g 17.3
|t Comparative problems of vision and olfaction
|g 272 --
|g 17.4
|t Logarithmic distribution of odorant binding constants
|g 272 --
|g 17.5
|t Odorant modeling
|g 273 --
|g 17.6
|t Olfactory tasks in a least-squared error algorithm
|g 275 --
|g 17.7
|t An approach through large-n
|g 276 --
|g 17.8
|t On the large number n of cell types: More is simpler
|g 280 --
|g 17.9
|t Separation of two unknown odors
|g 281 --
|g 17.10
|t More is simpler
|g 284 --
|g 18
|t Screening and giant charge inversion in electrolytes
|g 285 -- /
|r T.T. Nguyen, A. Yu. Grosberg, B.I. Shklovskii
|g 285 --
|g 18.2
|t Screening of charged surface by spherical Z-ions
|g 292 --
|g 18.3
|t Long charged rods as Z-ions
|g 297 --
|g 19
|t Forest Fires and Luminous Matter in the Universe
|g 301 -- /
|r Per Bak, Kan Chen
|g 301 --
|g 19.2
|t Forest Fire Model
|g 303 --
|g 19.3
|t Scale-Dependent Dimension of Luminous Matter
|g 306 --
|g 19.4
|t Forest fires and Measles
|g 310 --
|g 20
|t Complexity in Cosmology
|g 313 -- /
|r L. Pietronero
|g 313 --
|g 20.2
|t Fractal Structures and Self Organization
|g 314 --
|g 20.3
|t Reconstructing the Puzzle
|g 319 --
|g 20.3.1
|t Scaling Properties and Data Analysis
|g 321 --
|g 20.3.2
|t Implications of fractal structure up to [lambda subscript 0]
|g 324 --
|g 20.4
|t Fractal Cosmology in an Open Universe
|g 326 --
|g 21
|t Statistical Physics and Computational Complexity
|g 331 -- /
|r S. Kirkpatrick, B. Selman
|g 331 --
|g 21.2
|t Satisfiability and Hard-Problem Instances
|g 332 --
|g 21.3
|t Connections to Statistical Physics
|g 336 --
|g 21.4
|t A closer look at the phase transition
|g 337 --
|g 21.5
|t Mixtures of 2-SAT and 3-SAT problems
|g 339.
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|a Print version record.
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| 590 |
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|a JSTOR
|b Books at JSTOR Evidence Based Acquisitions
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|a JSTOR
|b Books at JSTOR Demand Driven Acquisitions (DDA)
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|a JSTOR
|b Books at JSTOR All Purchased
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|a Condensed matter.
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| 650 |
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|a Matière condensée.
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|a SCIENCE
|x Physics
|x General.
|2 bisacsh
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|a Condensed matter
|2 fast
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|a Festkörperphysik
|2 gnd
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|a Ong, N. Phuan,
|d 1948-
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| 700 |
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|a Bhatt, Ravin N.,
|d 1952-
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| 776 |
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|i Print version:
|t More is different.
|d Princeton, N.J. : Princeton University Press, ©2001
|z 0691088659
|w (DLC) 2001027847
|w (OCoLC)46908132
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| 830 |
|
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|a Princeton series in physics.
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| 856 |
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|u https://jstor.uam.elogim.com/stable/10.2307/j.ctv16t6n15
|z Texto completo
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| 938 |
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|a Askews and Holts Library Services
|b ASKH
|n AH37712461
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|a ProQuest Ebook Central
|b EBLB
|n EBL6353526
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|a YBP Library Services
|b YANK
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|a 92
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