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Mahan G.D. — Many-particle physics |
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Ïðåäìåòíûé óêàçàòåëü |
Nakajima, S. 592 1011
Nearest neighbor model 26
Nesbitt, L.B. 1015
Neutron scattering 907—916
Neutron scattering 870—873
Newton, R.G. 266 1008
Ng, K.W. 1015
Nozieres, P. 385 409 418 461 463 730 743 746 756 757 759 893 896 902 928 930 1009 1014 1015 1017
Number operator f-electrons 985
Number operator Fermi liquid theory 894
Number operator phonons 511 527
Nyqvist theorem 647
ODLRO (off diagonal long range order) 854—859
Off diagonal long range order see “ODLRO”
Ogawa, Y. 519
Ohtaka, K. 741 756 1014
Onsager relations 228 234
Onsager, L. 47 228 391 399 854 855 859 1006 1009 1017
Oomi, G. 692 1013
Oppenheimer, J.R. 34
Opsal, J.L. 664 1013
Optical theorem 248
Ordering operator tau 138
Ordering operator time 85
Orthogonality catastrophe 732 744—757
Osheroff, D.D. 841 936 948 1017
Ostrowski, G.E. 1017
Overhauser, A.W. 39 331 1005 1008
O’Keefe, M. 519
Pair distribution function 75 861
Pair distribution function bosons 861 863
Pair distribution function definition 74—75
Pair distribution function electron gas 401—405 452—458 462
Pairing helium 841—859 936—944
Pairing superconductor 777—788 827—838
Pairing Wick’s theorem 96—99
Palmer, L.H. 813 817 818 837 1015
Pandrey, P. 483 1009
Paramagnons 895 923—926 935 955 956
Pardee, W.J. 741 761 1014
Parker, W.H. 806 1015
Parks, R.D. 768 812 1015
Parr, R.G. 76 1006
Parratt, L.G. 764 1014
Patton, B.R. 933—935 1017
Pauli spin susceptibility see “Spin susceptibility”
Pauly, H. 1008
Pearson, W.B. 1012
Pekar, S.I. 513—516 1011
Pelizzari, C.A. 1017
Pelzer, H. 1005
Penn, D. 741 1014
Penrose, O. 854 855 857 859 1017
Percus — Yevick equation 860 866
Percus, J.K. 72 841 860 1006 1017
Peschel, I. 340 343 1008
Pethick, C 893 904 930—932 1016
Phase shifts definition 255
Phase shifts hard sphere 255—256
Phase shifts helium atoms 257—258
Phase shifts local resonance 279—280
Phillips, J.C. 1015
Phonons cloud 510
Phonons drag 686 966
Phonons harmonic approximation 1—14
Phonons metals 578—586
Phonons one-dimension 1—10
Phonons three-dimension 11
photons 60—71 360—375
Piezoelectric interaction 39—42 636
Pines, D. 385 409 418 461 933 902 928 930 1009 1011 1016 1017
Pinski, F.J. 1013
Plasma frequency 920 922
Plasma frequency electron gas 439—440 466—474 567 711
Plasma frequency ions 372 582
Plasmons 439—440 473—474 489—493
Platzman, P.M. 870 1009 1016
Poincare’s theorem 276
Polaritons 355—375
Polarizability atoms 366 370
Polarization operator electric 30 366 436 556
Polarization operator phonons 110
Polaron constant definition 44
Polaron constant table of values 518—519
Polarons see “Frohlich polarons” “Small
Pollak, R.A. 1014
Powell, C.J. 440 490 1009
Prange, R.E. 664 665 1013
Pseudopotential 23 25 414—417 580 599
Puff, R.D. 473 868 869 871 872 1009 1017
Quantum Boltzmann equation 198—203 671—692
Quasiparticles 479 641 643 898 916 926
Quinn, J.J. 395 386 389 396 475 1010
Raising operators see “Creation operator”
Rajagopal, A.K. 581 584 1011
Rammer, J. 1013
Random phase approximation 393—399 430—493 709 711 919 921
Rayleigh — Schr5dinger perturbation theory 493 498 503—513 515—516 526 569 597
Reaction matrix 242—245
Reatto, L. 864 865 1016 1017
Reik, H.G. 552 1011
Reissland, J.A. 586 1011
Relaxation energy 37 43
Relaxation time see “Lifetime”
Renormalization catastrophe see “Orthogonality catastrophe”
Renormalization factor definition 157
Renormalization factor electron gas 479—484
Renormalization factor electron-phonon 664
Renormalization factor Fano — Anderson model 285
Renormalization factor polarons 528 532 642
Representations Heisenberg 5 82 90 207
Representations interaction 83 90 207
Representations Schrodinger 82
Resistance minimum 958 967
resistivity see “Electrical conductivity”
Reynolds, C.A. 768 1015
Reynolds, D.C. 719 1014
Rice, M.J. 924 1017
Rice, T.M. 482 484 485 488 776 1010 1015 1017 1018
Richardson, R.C. 1017
Rickayzen, G. 768 825 1015
Ritchie, R.H. 491 1010
Robins, J.L. 440
Rodriquez, L.J. 872 1017
Ron, A. 893 1017
Rosen, A. 409 410 1009
Rosengren, A. 736 1014
Roton 877 878 889
Rowell, J.M. 594—595 597 836 837 1011 1015
RPA see “Random phase approximation”
Rules for constructing diagrams Matsubara 166
Rules for constructing diagrams zero temperature 111
Ruvalds, J. 878 1017
S-matrix 87—89 91 92 95 117—124 160—163 180—181
S-p approximation 930
Sachs, R.G. 562 1011
Saint James, D. 1015
Samwer, K. 967 1014 1018
Sawada, K. 385 1010
Scalapino, D.J. 592 827 1011 1015 1016
Scattering amplitude 918
Scattering Kondo effect 965
Scattering reaction matrix 242—245
Scattering T-matrix 245—248
Scattering two particle 19—20 918—922 927—929
Schafroth, M.R. 768 1016
Schiff, L.I. 14 66 505 512 539 1006 1011
Schmidt, P. 1009
Schneider, T. 465 1010
Schonhammer, K. 280 747 979 990 997 1001 1008 1014 1017
| Schotte, K. 324 543 753 1008 1011 1013 1014
Schotte, U. 324 753 1008 1014
Schrieffer, J.R. 58 575 578 630 633 653 761 768 796 825 827 838 910 924 977 1006 1010 1011 1012 1015 1016 1018
Schwab, C 519
Schwartz, J.L. 1008
Schweber, S.S. 239 1008
Schwinger, J. 117 1006
Screened potential electron gas 395 419—455
Screened potential electron-phonon 419—455
Screened potential paramagnons 919
Screening charge 419—422 455—459
Sears, V.F. 867 872—873 1017
Segall, B. 635 636 719 1013 1014
Seitz, F. 385—389 463 1010
Self energy electron-electron 379—399 475—479
Self energy electron-phonon 107—108 165 176 569—577 586—597
Self energy Fermi liquid theory 921
Self energy Kondo model 961 974—975
Self energy phonon 110
Self energy photon 360—375
Self-consistent field 431
Serene, J.W. 1018
Serin, B. 1015
Sernelius, B. 478 1009 1010
Sham, L.J. 586 1011 1018
Shaw, W. 817 836 837 1016
Sheng, P. 508 1011
Sherrington, D. 855 1016
Shey, H.M. 1008
Shiga, K. 1012
Shimanouchi, T. 519
Shirley, D.A. 1014
Sholl, C.A. 407 1010
Shuey, R.T. 39 1006
Shukla, R.C. 586 649 1011 1013
Shung, K.W.K. 478 1010
Sieskind, M. 519
Sigel, J.L. 649 1012
Silverstein, S.D. 488 974 1010 1018
Simanek, E. 700 1014
Simpson, J.A. 1009
Singh, R.N. 586 1011
Singwi — Sjolander dielectric function 449—454 487 566 571 710—711 758 76
Singwi, K.S. 449—466 1010
Sixtensson, P. 710 1014
Sjolander, A. 449—466 1010
Skold.K. 911—914 1017
Small polarons 533—554
Smith, H. 1013 1016
Smith, J.L. 1015
Smith, N.V. 710 1014
Sokolov, O.B. 1014
Solna, J. 1017
Sondheimer, E.H. 640 1006 1012
Specific heat 936 944—945
Specific heat Anderson model 993—994
Specific heat electron gas 485—486
Specific heat Fermi liquid theory 903
Specific heat Kondo model 975—976
Specific heat superconductor 839
Spectral functions 125 150—156 197 278 284 529 704 991
Spin susceptibility 899 922—926 945—948
Spin susceptibility definition 223—227
Spin susceptibility electron gas 485—488
Spin susceptibility superconductor 839
Spin susceptibility Tomonaga model 334
Spin-waves 331—335
Spins 45—60 899 909
Srivastava, P.L. 586 1011
Stacey, D.W. 519
Stare, G. 952 1017
Static structure factor 72—75
Staver, I. 583 1010
Stephen, M.J. 1009
Stewart, G.R. 977 1018
Strong coupling polaron 513—523
Strong coupling superconductors 767 799 813 827—838 840
Structure factor 72—75
Structure factor 908—916
Structure factor 75 870—873
Structure factor coherent 908
Structure factor incoherent 908
Structure factor static 72—75
Sturm, K. 711 1013
Sudden approximation Compton scattering 482—484
Sudden approximation derivation 874—876
Sudden approximation neutron scattering 870—872
Sueoka, O. 491 1010
Sum rules Anderson model 989
Sum rules dielectric function 466—474
Sum rules f 374 467 472 696
Suna, A. 535 1011
Sunjic, ML 732 761 764 1014
Superfluid density 888—892
Svensson, E. 867 1017
Swan, J.B. 440
Swanson, N. 1009
Swihart, J.C. 35 586 592 817 836 837 1006 1011 1016
Sykes, J. 941 1016
T-matrix 245—248 264—266 604—606
Takegahara, K. 663 1013
Tamm — Dancoff approximations 503—504 507 597
Tamura, H. 519
Tan, H.T. 905
Tanabe, Y. 741 756 1014
Taylor, B.N. 1015
Taylor, P. L. 229 686 1007 1013
Taylor, R. 437 586 649 670 671 1009 1011 1012 1013
Teller, E. 562 1011
Templeton, I.M. 1012
Tenn, J.S. 868 869 871 872 1017
Thaler, B.J. 1013
Thermal conductivity correlation function 233
Thermal conductivity definition 231
Thermal conductivity Fermi liquid theory 926
Thermal conductivity metals 693
Thermodynamic potential 163 179—193
Thermopower definition 232
Thermopower metals 665—671 693
Third moment 473
Thomas — Fermi dielectric function 428—430 456—467 494 571 583
Thomas, D.G. 39 726 1006 1007 1014
Thomas, H. 1010
Thomas, L.H. 428—430 1010
Thornber, K. 639 1013
Tiablikov, S.V. 534 1011
Tight binding model 25 283—285 535—554
Time-loop 117—124
Time-ordering operator 85—86
Ting, C.S. 475 1010
Tinkham, M. 813 817 818 837 1015
Toda, M. 1012
Tolochko, A.P. 1009
Tomlinson, P.G. 35 594 1006 1011
Tomonaga model 195 324—355 510 753 765 851
Tomonaga, S. 195 324—355 1007 1008
Torello, F. 1008
Tosi, M. 449 1010
Tracy, J.C. 490 1010
Transition temperature 933—936 943 954
Transition temperature 848 888
Transition temperature superconductor 768 773 774 786 787 813
Triplet pairing 777—778 936—954
Trivich, D. 519
Tsui, D.C. 575—576 1012
Tsuneto, T. 825 1016
Tunneling Hamiltonian 788
Tunneling Josephson 805—813
Tunneling Schottky barrier 575—576
Tunneling superconductors 788—813 837—838
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