"Phase transition in bulk single crystals and thin films of VO2 by nanoscale infrared spectroscopy and imaging" by Mengkun Liu

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Phase transition in bulk single crystals and thin films of VO2 by nanoscale infrared spectroscopy and imaging

Physical Review B

Mengkun Liu, University of California, San Diego
Aaron J. Sternbach, University of California, San Diego
Martin Wagner, University of California, San Diego
Tetiana V. Slusar, Electronics and Telecommunications Research Institute
Sergey L. Bud'ko, Iowa State University
Salinporn Kittiwatanakul, University of Virginia
M. M. Qazilbash, College of William and Mary
Alexander McLeod, University of California, San Diego
Zhe Fei, University of California, San Diego
Elsa Abreu, Boston University
Jingdi Zhang, University of California, San Diego
Michael Goldflam, University of California, San Diego
Siyuan Dai, University of California, San Diego
Guang-Xin Ni, University of California, San Diego
Jiwei Lu, University of Virginia
Hans A. Bechtel, Lawrence Berkeley National Laboratory
Michael C. Martin, Lawrence Berkeley National Laboratory
Markus B. Raschke, University of Colorado Boulder
Richard D. Averitt, University of California, San Diego
Stuart A. Wolf, University of Virginia
Hyun-Tak Kim, Electronics and Telecommunications Research Institute
Paul C. Canfield, Iowa State University
D. N. Basov, University of California, San Diego

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Article

Disciplines

Publication Version

Published Version

Publication Date

6-15-2015

DOI

10.1103/PhysRevB.91.245155

Abstract

We have systematically studied a variety of vanadium dioxide (VO2) crystalline forms, including bulk single crystals and oriented thin films, using infrared (IR) near-field spectroscopic imaging techniques. By measuring the IR spectroscopic responses of electrons and phonons in VO2 with sub-grain-size spatial resolution (∼20nm), we show that epitaxial strain in VO2 thin films not only triggers spontaneous local phase separations, but also leads to intermediate electronic and lattice states that are intrinsically different from those found in bulk. Generalized rules of strain- and symmetry-dependent mesoscopic phase inhomogeneity are also discussed. These results set the stage for a comprehensive understanding of complex energy landscapes that may not be readily determined by macroscopic approaches.

Comments

This article was published in Physical Review B 91 (2015): 245155, doi:10.1103/PhysRevB.91.245155. Posted with permission

American Physical Society

2015

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application/pdf

Citation Information

Mengkun Liu, Aaron J. Sternbach, Martin Wagner, Tetiana V. Slusar, et al.. "Phase transition in bulk single crystals and thin films of VO2 by nanoscale infrared spectroscopy and imaging" Physical Review B Vol. 91 Iss. 24 (2015) p. 245155
Available at: http://works.bepress.com/paul_canfield/95/