SPIN-RESOLVED PHOTOEMISSION-STUDY OF THE REACTION OF O2 WITH FCC CO(100)

被引:58
作者
CLEMENS, W [1 ]
VESCOVO, E [1 ]
KACHEL, T [1 ]
CARBONE, C [1 ]
EBERHARDT, W [1 ]
机构
[1] BERLINER ELEKTRONENSPEICHERRING GESELLSCHAFT,W-1000 BERLIN 33,GERMANY
来源
PHYSICAL REVIEW B | 1992年 / 46卷 / 07期
关键词
D O I
10.1103/PhysRevB.46.4198
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
The effect of O2 chemisorption on the electronic structure and magnetism of fcc Co overlayers, grown epitaxially on Cu(100), has been studied by use of spin- and angle-resolved photoelectron spectroscopy. At room temperature, for exposures between 2 and 7 L Of O2, oxygen adsorbs dissociatively in an ordered c (2 X 2) structure. [ 1 langmuir (L) = 10(-6) Torr sec.] The chemical interaction between the adsorbate and the substrate manifests itself through a reduction of the 3d surface-state emission at GAMMA near E(F). The oxygen bands exhibit an induced exchange splitting of 0.2 +/- 0.1 eV at the center of the surface Brillouin zone. With higher O2 exposure, corresponding to the formation of a CoO surface phase, the photoemission spectra show evidence for strong correlation effects in the electronic structure. A satellite appears about 10 eV below E(F) in the spectra. The formation of the CoO surface-oxide phase is accompanied by a decrease in the photoelectron spin polarization revealing the quenching of the surface ferromagnetic order. At low temperatures (150 K) and high exposures Of O2 the formation of a Co3O4 phase was observed, which again has a different electronic structure.
引用
收藏
页码:4198 / 4204
页数:7
相关论文
共 25 条
[1]   X-RAY PHOTOEMISSION STUDY OF INTERACTION OF OXYGEN AND AIR WITH CLEAN COBALT SURFACES [J].
BRUNDLE, CR ;
CHUANG, TJ ;
RICE, DW .
SURFACE SCIENCE, 1976, 60 (02) :286-300
[2]   SPIN-RESOLVED PHOTOELECTRON ENERGY-DISTRIBUTIONS FROM THE FE 3P CORE LEVELS [J].
CARBONE, C ;
KISKER, E .
SOLID STATE COMMUNICATIONS, 1988, 65 (10) :1107-1110
[3]   INTERACTION OF OXYGEN WITH HCP (0001) RECRYSTALLIZED COBALT SURFACES [J].
CASTRO, GR ;
KUPPERS, J .
SURFACE SCIENCE, 1982, 123 (2-3) :456-470
[4]   A LEED DETERMINATION OF THE STRUCTURE OF COBALT OVERLAYERS GROWN ON A SINGLE-CRYSTAL CU(001) SUBSTRATE [J].
CLARKE, A ;
JENNINGS, G ;
WILLIS, RF ;
ROUS, PJ ;
PENDRY, JB .
SURFACE SCIENCE, 1987, 187 (2-3) :327-338
[5]   QUANTUM SIZE EFFECTS AND THE ENHANCEMENT OF THE EXCHANGE SPLITTING IN ULTRATHIN CO OVERLAYERS ON CU(100) [J].
CLEMENS, W ;
KACHEL, T ;
RADER, O ;
VESCOVO, E ;
BLUGEL, S ;
CARBONE, C ;
EBERHARDT, W .
SOLID STATE COMMUNICATIONS, 1992, 81 (09) :739-744
[6]   CHARACTERIZATION OF THE GROWTH-PROCESSES AND MAGNETIC-PROPERTIES OF THIN FERROMAGNETIC COBALT FILMS ON CU(100) [J].
DEMIGUEL, JJ ;
CEBOLLADA, A ;
GALLEGO, JM ;
FERRER, S ;
MIRANDA, R ;
SCHNEIDER, CM ;
BRESSLER, P ;
GARBE, J ;
BETHKE, K ;
KIRSCHNER, J .
SURFACE SCIENCE, 1989, 211 (1-3) :732-739
[7]   SURFACE, INTERFACE, AND THIN-FILM MAGNETISM [J].
FALICOV, LM ;
PIERCE, DT ;
BADER, SD ;
GRONSKY, R ;
HATHAWAY, KB ;
HOPSTER, HJ ;
LAMBETH, DN ;
PARKIN, SSP ;
PRINZ, G ;
SALAMON, M ;
SCHULLER, IK ;
VICTORA, RH .
JOURNAL OF MATERIALS RESEARCH, 1990, 5 (06) :1299-1340
[8]   LAYER-BY-LAYER GROWTH OF METAL OVERLAYERS [J].
GERMAR, R ;
DURR, W ;
KREWER, JW ;
PESCIA, D ;
GUDAT, W .
APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING, 1988, 47 (04) :393-398
[9]   EXPERIMENTAL AND THEORETICAL-STUDY OF CO ADSORBED AT THE SURFACE OF CU - RECONSTRUCTIONS, CHARGE-DENSITY WAVES, SURFACE MAGNETISM, AND OXYGEN-ADSORPTION [J].
GONZALEZ, L ;
MIRANDA, R ;
SALMERON, M ;
VERGES, JA ;
YNDURAIN, F .
PHYSICAL REVIEW B, 1981, 24 (06) :3245-3254
[10]   BONDING AND MAGNETISM OF CHEMISORBED OXYGEN ON FE(001) [J].
HUANG, H ;
HERMANSON, J .
PHYSICAL REVIEW B, 1985, 32 (10) :6312-6318
123