584 research outputs found
Dr. Mike Davison – Faculty Author Interview
Dr. Mike Davison, Professor of Music, discusses his documentary film, Cuba: Rhythm in Motion. This dynamic film captures the joy of making music in Cuba, an island that Dr. Davison has visited numerous times with his students. The contrasting yet intertwined histories of Cuban and American music are traced and illustrated with extensive performance footage. A DVD of Cuba: Rhythm in Motion is available in Parsons Music Library
Surface density of states in the many-neighbor approximation
PT: J; CR: DAVISON SG, 1969, CHEM PHYS LETT, V3, P424 DAVISON SG, 1972, INT J QUANTUM CHEM, V6, P387 DAVISON SG, 1976, INT J QUANTUM CHEM, V10, P867 ECONOMOU EN, 1983, SOLID STATE SCI SER, V7 KALKSTEIN D, 1971, SURF SCI, V26, P85 LAVIS DA, UNPUB LAVIS DA, 1985, J PHYS C SOLID STATE, V18, P1387; NR: 7; TC: 4; J9: J PHYS CHEM; PG: 4; GA: A0336Source type: Electronic(1
Multisite bond and overlap treatment of polymer-chain band structure
The usual tight-binding (TB) approximation, employed in electronic structure calculations, is extended to include the more-distant neighbor sites than the first. In doing so, a simple power law is adopted to describe the bond and overlap contributions, which enables the energy dispersion relation to be obtained in a closed analytic form. The resulting energy band structure has markedly different features from its TB Counterpart to which it reduces in the appropriate limits. In particular, local extrema always occur at the TB stationary values, although these may not both be band edges. Another intermediate critical point may arise, which is one of the band edges, the other being located at one of the TB extrema. (C) 2003 Wiley Periodicals, Inc.PT: J; CR: ALSTRUP I, 1968, PHYS STATUS SOLIDI, V28, P555 ANDRE JM, 1990, INT J QUANTUM CHEM S, V24, P65 DAVISON SG, 1967, J SURF SCI, V6, P323 DAVISON SG, 1969, CHEM PHYS LETT, V3, P424 DAVISON SG, 1970, SOLID STATE PHYS, V25, P1 DAVISON SG, 1972, INT J QUANTUM CHEM, V6, P387 DAVISON SG, 1976, INT J QUANTUM CHEM, V10, P867 DAVISON SG, 1986, J PHYS CHEM-US, V90, P652 DAVISON SG, 1996, BASIC THEORY SURFACE DAVISON SG, 2002, ACTA PHYS CHIM DEBRE, V189, P34 FAIRBAIRN WM, 1968, SURF SCI, V9, P439 FUJIMOTO H, 1987, CHEM PHYS LETT, V141, P485 GILBERT TL, 1962, J MATH PHYS, V3, P107 HOFFMANN R, 1991, MACROMOLECULES, V24, P3725 KARPFEN A, 1982, PHYS SCR T, V1, P79 KOSTER GF, 1954, PHYS REV, V95, P1167 LAVIS DA, 1986, J PHYS C SOLID STATE, V19, P3125 LOWDIN PO, 1950, J CHEM PHYS, V18, P365 LOWDIN PO, 1951, J CHEM PHYS, V19, P1579 MCKINNON BA, 1995, PHYS REV B, V52, P14531 MIRABELLA DA, 1994, AM J PHYS, V62, P162 MIRABELLA DA, 1994, PHYS REV B, V50, P12152 MIRABELLA DA, 1998, INT J QUANTUM CHEM, V68, P285 MISKOVIC ZL, 1996, CHEM PHYS LETT, V260, P647 RUEDENBERG K, 1961, J CHEM PHYS, V34, P1878 SLATER JC, 1930, PHYS REV, V35, P509 SPRINGBORG M, 1989, PHYS REV B, V40, P3333 SPRINGBORG M, 2000, INT J QUANTUM CHEM, V77, P843 TAFERNER WT, 1997, CHEM PHYS LETT, V269, P171 TOMASEK M, 1960, J CZECH J PHYS B, V10, P268; NR: 30; TC: 0; J9: INT J QUANTUM CHEM; PG: 6; GA: 717VPSource type: Electronic(1
Surface states in electrochemisorption
The recursive Green function (RGF) method is used to obtain the surface and adatom RGFs for an electrified substate. The electrochemisorption (ECS) process is described, by invoking the Anderson-Newns (AN) model, whereby a self-consistent treatment of the ECS energy and charge transfer is provided. The role of the electric field, and the presence of surface states (SS), in governing magnetic and non-magnetic ECS is discussed in the case of H-Cr. (C) 2001 Elsevier Science Ltd. All rights reserved.PT: J; CR: ANDERSON PW, 1961, PHYS REV, V124, P41 DAVISON SG, 1988, SURF SCI, V200, P265 DAVISON SG, 1996, BASIC THEORY SURFACE DAVISON SG, 1997, J PHYS-CONDENS MAT, V9, P6371 ENGLISH RA, 1996, PROG SURF SCI, V53, P323 ENGLISH RA, 1997, PROG SURF SCI, V54, P241 ENGLISH RA, 1998, SURF SCI, V397, P251 MUSCAT JP, 1978, PROG SURF SCI, V9, P1 NEWNS DM, 1969, PHYS REV, V178, P1123; NR: 9; TC: 0; J9: PROG SURF SCI; PG: 11; GA: 460QCSource type: Electronic(1
Chemisorption on contaminated metals
PT: J; CR: ANDERSON PW, 1961, PHYS REV, V124, P41 DAVISON SG, 1968, INT J QUANTUM CHEM S, V2, P313 DAVISON SG, 1972, INT J QUANTUM CHEM, V6, P549 EINSTEIN TL, 1973, PHYS REV B, V7, P3629 EINSTEIN TL, 1978, SURF SCI, V75, L161 EINSTEIN TL, 1980, THEORY CEHMISORPTION, CH7 FAIRBAIRN WM, 1971, SURFACE SCI, V25, P587 GERLACH E, 1969, SURFACE SCI, V13, P446 GODWIN VE, 1973, SURF SCI, V34, P108 LAU KH, 1978, SURF SCI, V75, P69 MASUDA K, 1979, PHYS STATUS SOLIDI B, V92, K103 MUSCAT JP, 1978, PROG SURF SCI, V9, P1 MUSCAT JP, 1983, J PHYS C SOLID STATE, V16, P3641 NEWNS DM, 1969, PHYS REV, V178, P1123 UEBA H, 1980, PHYS STATUS SOLIDI B, V99, P763; NR: 15; TC: 18; J9: SURFACE SCI; PG: 10; GA: AAH42Source type: Electronic(1
Overlap effects on surface states
A tight-binding investigation is performed of the electronic structure of a semi-infinite monatomic chain, whose atomic orbitals are assumed to be non-orthogonal, so that the effects of overlap can be taken into account. In addition to markedly modifying the bulk band-edges, the presence of overlap also greatly influences the position and existence of the surface states. These latter effects are examined in detail. (C) 2003 Elsevier Ltd. All rights reserved.PT: J; CR: DAVISON SG, 1992, BASIC THEORY SURFACE DAVISON SG, 2002, ACTA PHYS CLIM DEBRE, V34, P189 GILBERT TL, 1962, J MATH PHYS, V3, P107 GRIMLEY TB, 1960, ADV CATAL, V12, P1 HEINRICHS J, 2000, J PHYS-CONDENS MAT, V12, P5565 LOWDIN PO, 1950, J CHEM PHYS, V18, P365 LOWDIN PO, 1951, J CHEM PHYS, V19, P1579 MCKINNON BA, 1995, PHYS REV B, V52, P14531 MIRABELLA DA, 1994, AM J PHYS, V62, P162 MIRABELLA DA, 1998, INT J QUANTUM CHEM, V68, P285 SLATER JC, 1930, PHYS REV, V35, P509; NR: 11; TC: 0; J9: PROG SURF SCI; PG: 8; GA: 756ACSource type: Electronic(1
Role of surface states in ion scattering
PT: J; CR: AMOS AT, 1986, PHYS LETT A, V118, P471 DAVISON SG, 1986, J ELECTROANAL CH INF, V204, P173 ERICKSON RL, 1975, PHYS REV LETT, V34, P297 MCDOWELL HK, 1982, J CHEM PHYS, V77, P3263 RUSCH TW, 1977, INELASTIC ION SURFAC, P73 SEBASTIAN KL, 1985, PHYS REV B, V31, P6976 SULSTON KW, 1984, SURF SCI, V148, P311; NR: 7; TC: 12; J9: SOLID STATE COMMUN; PG: 3; GA: H6713Source type: Electronic(1
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