Phase Instability amid Dimensional Crossover in Artificial Oxide Crystal

Authors
Jeong, Seung GyoMin, TaewonWoo, SungminKim, JiwoongZhang, Yu-QiaoCho, Seong WonSon, JaeseokKim, Young-MinHan, Jung HoonPark, SungkyunJeong, Hu YoungOhta, HiromichiLee, SuyounNoh, Tae WonLee, JaekwangChoi, Woo Seok
Issue Date
2020-01-13
Publisher
AMER PHYSICAL SOC
Citation
PHYSICAL REVIEW LETTERS, v.124, no.2
Abstract
Artificial crystals synthesized by atomic-scale epitaxy provide the ability to control the dimensions of the quantum phases and associated phase transitions via precise thickness modulation. In particular, the reduction in dimensionality via quantized control of atomic layers is a powerful approach to revealing hidden electronic and magnetic phases. Here, we demonstrate a dimensionality-controlled and induced metal-insulator transition (MIT) in atomically designed superlattices by synthesizing a genuine two-dimensional (2D) SrRuO3 crystal with highly suppressed charge transfer. The tendency to ferromagnetically align the spins in an SrRuO3 layer diminishes in 2D as the interlayer exchange interaction vanishes, accompanying the 2D localization of electrons. Furthermore, electronic and magnetic instabilities in the two SrRuO3 unit cell layers induce a thermally driven MIT along with a metamagnetic transition.
Keywords
METAL; INTERFACES; TRANSITION; EFFICIENCY; METAL; INTERFACES; TRANSITION; EFFICIENCY
ISSN
0031-9007
URI
https://pubs.kist.re.kr/handle/201004/119091
DOI
10.1103/PhysRevLett.124.026401
Appears in Collections:
KIST Article > 2020
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