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Unertl W.N. — Physical Structure

Unertl W.N. — Physical Structure

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Название: Physical Structure

Автор: Unertl W.N.

Аннотация:

The primary goal of this book is to summarize the current level of accumulated knowledge about the physical structure of solid surfaces with emphasis on well-defined surfaces at the gas-solid and vacuum-solid interfaces. The intention is not only to provide a standard reference for practitioners, but also to provide a good starting point for scientists who are just entering the field. The presentation in most of the chapters therefore assumes that the typical reader will have a good undergraduate background in chemistry, physics, or materials science. At the same time, coverage is comprehensive and at a high technical level with emphasis on fundamental physical principles. This first volume in a new series is appropriately devoted to the physical structure of surfaces, knowledge of which will be essential for a complete understanding of electronic properties and dynamical processes, the topics of the next two volumes in the series.

The volume is divided into four parts. Part I describes the equilibrium properties of surfaces with emphasis on clean surfaces of bulk materials. Part II provides an introduction to some of the primary experimental methods that are used to determine surface crystal structures. Part III gives an overview of the vast topic of the structure of adsorbed layers. The concluding Part IV deals with the topics of defects in surface structures and phase transitions.

Язык:

Рубрика: Физика/

Статус предметного указателя: Готов указатель с номерами страниц

ed2k: ed2k stats

Год издания: 1996

Количество страниц: 900

Добавлена в каталог: 14.11.2008

Операции: Положить на полку | Скопировать ссылку для форума | Скопировать ID

Предметный указатель

Order-disorder transition      119 448 521—523 535 567 671 697
Ordered phase      42 613
Ordering kinetics      661
Orientational order      521
Orientational phase diagram      68
Orientational phase separation      55 68
Orientational phase separation of vicinal Pb(111)      79
Orientational phase separation of vicinal Si(111)      79
Osakabe, N.      98 791
Oscn, J. W.      573
Oshima, C.      25 226 227 420 see M.” “Itoh H.” “Souda R.”
Osuch, K.      227
Otant, S.      225 227 420 see M.” “Souda R.”
Out of phase condition      297 302 328 663 666 667 669 679 692 693
Out of phase scattering      295
Outka, D. A.      495 see U.”
Oveiney, R. M.      419
Over, H.      134 494 496 497 499 500 501 792 see C.” “Bludau H.” “Gieier M.” “Hertel T.” “Huang H.”
Overhang      81
Overhauser, A. W.      180 see G.
Overlap matrix      106 147
Overlayer lattice      42
Overlayer mesh      25
Overlayer meshes, classification of      30
Overlayer structures      457
Overlayer unit mesh vectors      25
Overlayers      655
Oxidation      427 457
Oxide structures      191 456
Oxides      143 222 427
Oxygen adsorption      443
Oxygen deficient surface      166
Oxygen penetration      457
Oxygen vacancies      175
Oxygen-induced relaxations      447
Ozaki, A.      500
Ozcomeit, J. S.      98
Ozcomert, J. S.      98 647 see W.
p(2x2) oxygen on Ni(111)      754
Pacchioni, G.      647
Packaid, W. E.      791 see F.
Packard, W. E.      268 see S.
Pai, W. W.      98 647 see J.
Paiamagnensm      720
Paik, C. Y.      493 see T.”
Pair correlation function      300 523
Pair distribution function      37 39 298
Pair energy      586 598
Pair intei actions      579 581 586 594 638 639
Pair interaction energy      593
Pair potential      154 625
Pair-wise intei actions      79
Paitial dislocations      674 676
Paiticle-vacancy interchange      729
Palmari, J. P.      568 see M.”
Palmberg, P. W.      573
Palmer, R. L.      571 see K.”
Pan, J. M.      227 see B.
Pandey, K. C.      135 267 498 see E.” “Martensson P.”
Pandit, R.      573
Pandy, K. C.      182 267
Pangher, N.      493 495 500 see S.” “Comelli G.”
Panicle hole symmetry      594
Panicle-vacancy transcription      728
Pantelides, S. T.      182
Paolucci, G.      495 see G.” “Dhanak V.
Papaconsianiopoulos, D. A.      643 see R.
Papaconstantopoulos, D. A.      135
Papanikolaou, N.      643 see P.
Parallel imaging      398
Park, C.      500
Park, R. L.      43 359 360 573 645 649 791 see R. “Roelofs L. “Taylor D. “Williams E.
Park, S. I.      499 see J.”
Parkin, S. R.      500
Parkin, S. S. P.      789 see L.
Parmigiani, F.      494 647 see P. “Pacchioni G.”
Parr, R. G.      182
Parrinello, M.      134 644 see F.”
Parrmello, M.      133 181 see R.” “Iarlori S.”
Parroti, L.      500
Parry, D. E.      182
Parshin, A. Y.      97 646 see V.
Partition function      719
Pashitskn, E. A.      643 see O.
Pashley, M. D.      267 268 419
Passell, L.      568 569 570 571 572 573 574 575 see K.” “Dutta P.” “Eckert J.” “Gner B. “Kjems J. “Larese J. “Satija S. “Taub H.” “You H.”
Passler, M. A.      496 see D.
Pate, B. B.      182
Patel, J. R.      502 792 see J.”
Paton, A.      266 267 see C. “Horsky T. “Kahn A.”
Patterson function      37 299
Patterson, H.      570 573 see B. “Satija S.
Paul, A.      182
Pauli exclusion principle      149 505
Pauling law of electronegativity      189
Pauling radius      469 471—474
Pauling, L.      227 268 573 647
Payne, M. C.      136 267 see M.” “Stich I.” “Teter M.”
Payne, S. H.      98 647
Pb(110)      342 343
Pcdersen, J. S.      266 359 see R.” “Grey F.”
Pcdio, M.      500
pd      105 122
Pd(100)-H EAM      626
Pd(110)      449
Pd(110)-CO      440
Peacor, S. D.      227
Pedeison, M. R.      134 see K.”
Pederson, M. R.      647 see J.
Pedio, M.      494 see L.”
Pehlke, E.      792 see J.”
Peidereau, J.      135
Peierls distortion      162
Peierls, R.      182 573
Peiez — Sandoz, R.      136 see H.
Peifect absoipnon      280
Peiovskne (100) surfaces      169
Peisson, B .N. J.      647 791
Pelz, J. P.      568 see R.
Pendiy, J. B.      267 359 360 494 498 499 501 646 791 see S.” “MacLaren J. “Muschiol U.” “Oed W.” “Rous P. “Wedler H.”
Pengra, D. B.      573
Pepe, G.      570 see J.
Perdew, J. P.      135 647
Periodic boundary conditions      803
Periodic table      431
Perovskite      175 178 193 210
Peroxide ions $\rm {O}_{2}^{2-}$       478
Perry, T.      98 136 648 see J.
Pershan, P. S.      358 see A.”
Pestak, M. W.      573
Petei, J.      134 see U.”
Peters, C.      573 574 see E.
Peters, C. J.      571 790 see H.”
Peterson, L. D.      266 see H.
Petot — Ervas, G.      225 see L.
Pettifor, D. G.      134 see L.”
Pflanz, S.      499 see H.”
Pfnuer, H.      498 500 645 647 648 791 see D.” “Lindroos M.” “Michalk G.” “Piercy P.” “Sandhoff M.” “Schmidtke E.” “Schwennicke C.” “Sklarek W.” “Sokolowski M.”
Phaneuf, R. J.      98 99 268 791 see E.
Phase boundaries      221 511 533 535 628 631 640
Phase coexistence      784
Phase contrast      401
Phase diagrams      128 468 509 510 521 523 533 535 552 582 613 615 617 618 626 631 639 686 693 702 718 720 726 728 729 735 751 788 793 794
Phase equilibna      74
Phase sepaiation      69 77 78
Phase shifts      275 590 613 614
Phase tiansitions      53 242 473 508 516 521 522 535 549 551 552 567 604 681 693 701 704 788
Phase transition (7x7)->(1x1)      242
Phases      581
Phases of a form      7

Phenacite structure      193 220
Phillips, J. C.      268
Phillips, J. M.      227 643 see L.
Phillips, K.      226 see W.”
Phonon dispersion      557 634
Phonon dynamics      709
Phonon energies      155
Phonon excitation      448
Phonons      330 511 513 601
Photocatalysis      210
Photocathodes      459 478
photoemission      114 115 162 448 601
Photoemission data      159
Photoemission electron microscope (PEEM)      442
Photoemission spectroscopy      476
Photon stimulated desorption (PSD)      194
Phthalocyanine      241
Physisorbed films      565
Physisorption      505 536 548 580 583 583 729 742 773 778
Physisorption state      445
Physisorption studies      531
Pi(111)-CO      639
Pialine, G.      500 see L.”
Pianetta, P.      495 499 502 see R.” “Nogami J.” “Woicik J.
Pickett, W. E.      135
Pieconditioncd conjugate gradicni scheme      109
Piemelting      547
Piemelting transition      243
Pierce, D. T.      500 789 see L.
Piercy, P.      500 647 791 see H.”
Piezoelectric materials      369
Piezoelectric scanning device      369 370
Piggins, N.      359 see B.”
Pignet, T.      643 see K.”
Pinkvos, H.      419
Pinwheel reconstruction      763
Piojected election density      340
Pirug, G.      500
Pisani, C.      180 183 645 see M.” “Grimley T.
Pitzer, K. S.      574 648 see O.”
Planar ${sp}^{2}$ bonded chains      240
Planar model      750
Plancher, M.      789 see G.”
Planck's constant      146
Plane wave based methods      108
Plane wave pseudopotential      130
Plane waves      147
Plass, R.      418 419 see C.” “Marks L.
Plastic deformation      375
Pluis, B.      359
Plummer, E. W.      497 499 500 790 see D.” “Itchkawitz B. “Mundenar J.
Poelsema, B.      359 573 710 see R.”
Poensgen, M.      97 98 644 see J.” “Giesen M.”
Pohland, O.      98
Point and space group symmetry      16
Point defects      174 175 202 221 223 289 290 358 363 386 655 657 658 805
Point groups      16 19
Point lattice defects      803
Point of general position      18
Point of special position      18
Point operation      16
Point-gioup symmetry      579
Point-to-point resolution      368 402
Poiosity      224
Poirer, G. E.      227
Poisoning      616
Poisson's equation      599
Poisson's latio      94 635 672
Polaiizaiion factor      326
Polanyi, M.      500
Polar surfaces      207 210 236 248 249 258
Polarizability      154 464 583
Polarization      155 610
Polarization potential      155
Polatoglou, H. M.      649 see C.”
Pollak, P.      500
Polli, M.      494 see A.
Pollmann, J.      267 see E.”
Polyciystalline surfaces      416
Polymorphism      521 567
Polytypes      215
Polytypes of SiC      217
Polzonetli, G.      494 see P.
Poon, T. W.      98 647
Pople, J. A.      181 183 see W.
Popova, S. V.      183 see S.
Poppa, H.      419 see H.”
Poriz, K.      647
Positional conelation      525
Positional disordenng      522
Positional oidei      521
Positive surface excesses      62
Potential bainer      445
Potts 3 state Potts model      522 724 747 748 754 798
Potts 4 slate Potts model      448 724
Potts 4-staie clock model      750 751
Potts clock model      750
Potts models      750
Potts planai Potts      750
Potts q-state Potts models      750
Powei-law decay exponents      611
Power law      680 703
Power law line shape      301
Prade, J.      183 see R.”
Preikszas, D.      420 see H.”
Presicci, M.      359
Pressure      70
Pressure foi ideal gases      729
Pressure measurement      551
Preuss, E.      96 see H.
Preuss, W.      573
Price, G. L.      573 575 see J.
Prigge, D.      496 see G.”
Primitive cells      579
Primitive meshes      13
Primitive ovei layer unit mesh      29
Primmvc lattice vectors      317
Prince, K. C.      494 495 499 see A. “Cornelli G.” “Comicioli C.” “Dhanak V. “Murray P.
Principles of semiconductor surface leconstiuction      246
Prinz, G.      789 see L.
Pritchard, J.      497 568 573 see M. “Horn K.” “Roberts R.
Projected band structure      115
Prokrovskn and Talapov      519
Prokrovskn, V. L.      573
Promoters in catalytic reactions      477
promoting      616
Pruiton, M.      183 227 see M.
Pseudo-hexagonal layer      755
Pseudo-hexagonal structure      755 757
Pseudo-potential methods      108 113
Pseudo-potential plane wave methods      110
Pseudo-potential plane waves      108
Pseudo-potentials      148
pt      53 54 105 122 755
Pt on Pt(111)      689
Pt(001)      396
Pt(100)c(4x2)-CO      413
Pt(110)      414 415 449 760
Pt(110) CO      435 438
Pt(110)(1x2)      397 398 440 441
Pt(110)(2xl)p2mg 2CO      440
Pt(111)      520 557
Pt(111)-K      468 469
Pt/Pt(111)      680
PtCo      382
Pu Hu, Zi      502 see R.”
Puga, M. W.      268 see S.
Pukite, P. R.      359
Pulay forces      110
Pulay, P.      135

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