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Physical Review Letters, volume 95, issue 9, publication number 096802

Band Structure and Oscillatory Electron-Phonon Coupling of Pb Thin Films Determined by Atomic-Layer-Resolved Quantum-Well States

YAN-FENG ZHANG ¹

Yanfeng Zhang ¹

JIN-FENG JIA ¹

Jin Jia ¹

Tie-Zhu Han ¹

Zhe Tang ¹

Quan-Tong Shen ¹

Guo Yang ¹

Yang Guo ¹

Z. Q. QIU ²

Zheng-Jun Qiu ²

QI-KUN XUE ¹

Q. H. Xue ¹

Show full list: 13 authors

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Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, The Chinese Academy of Sciences, Beijing 100080, China |

Departments of Physics, University of California at Berkeley, Berkeley, California 94720, USA |

Publication type: Journal Article

Publication date: 2005-08-26

American Physical Society (APS)

Journal: Physical Review Letters

scimago Q1

SJR: 3.040

CiteScore: 16.5

Impact factor: 8.1

ISSN: 00319007, 10797114

DOI: 10.1103/physrevlett.95.096802

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PubMed ID: 16197236

General Physics and Astronomy

Abstract

Using a low temperature growth method, we have prepared atomically flat Pb thin films over a wide range of film thickness on a Si-(111)-7 x 7 surface. The Pb film morphology and electronic structure are investigated in situ by scanning tunneling microscopy and angle-resolved photoemission spectroscopy. Well-defined and atomic-layer-resolved quantum-well states of the Pb films are used to determine the band structure and the electron-phonon coupling constant (lambda) of the films. We found an oscillatory behavior of lambda with an oscillation periodicity of two atomic layers. Almost all essential features in the Pb/Si(111) system, such as the growth mode, the oscillatory film stability, and the 9 monolayer envelope beating pattern, can be explained by our results in terms of the electron confinement in Pb films.

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Publisher

American Physical Society (APS)

Journal

Physical Review Letters

scimago Q1

SJR

3.040

CiteScore

16.5

Impact factor

8.1

ISSN

00319007 (Print)

10797114 (Electronic)

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Band Structure and Oscillatory Electron-Phonon Coupling of Pb Thin Films Determined by Atomic-Layer-Resolved Quantum-Well States

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