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Cited 9 time in webofscience Cited 8 time in scopus
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Equivalence of electronic and mechanical stresses in structural phase stabilization: A case study of indium wires on Si(111)

Authors
Kim, Sun-WooKim, Hyun-JungMing, FangfeiJia, YuZeng, ChangganCho, Jun-HyungZhang, Zhenyu
Issue Date
May-2015
Publisher
AMER PHYSICAL SOC
Citation
Physical Review B, v.91, no.17, pp 1 - 6
Pages
6
Indexed
SCIE
SCOPUS
Journal Title
Physical Review B
Volume
91
Number
17
Start Page
1
End Page
6
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/143199
DOI
10.1103/PhysRevB.91.174434
ISSN
2469-9950
2469-9969
Abstract
It was recently proposed that the stress state of a material can also be altered via electron or hole doping, a concept termed electronic stress (ES), which is different from the traditional mechanical stress (MS) due to lattice contraction or expansion. Here we demonstrate the equivalence of ES and MS in structural stabilization, using In wires on Si(111) as a prototypical example. Our systematic density-functional theory calculations reveal that, first, for the same degrees of carrier doping into the In wires, the ES of the high-temperature metallic 4 x 1 structure is only slightly compressive, while that of the low-temperature insulating 8 x 2 structure is much larger and highly anisotropic. As a consequence, the intrinsic energy difference between the two phases is significantly reduced towards electronically phase-separated ground states. Our calculations further demonstrate quantitatively that such intriguing phase tunabilities can be achieved equivalently via lattice-contraction induced MS in the absence of charge doping. We also validate the equivalence through our detailed scanning tunneling microscopy experiments. The present findings have important implications for understanding the underlying driving forces involved in various phase transitions of simple and complex systems alike.
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