M
Michael S. Fuhrer
Researcher at Monash University
Publications - 329
Citations - 29591
Michael S. Fuhrer is an academic researcher from Monash University. The author has contributed to research in topics: Graphene & Carbon nanotube. The author has an hindex of 70, co-authored 309 publications receiving 26802 citations. Previous affiliations of Michael S. Fuhrer include University of California & University of New South Wales.
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Crossover from 2D ferromagnetic insulator to wide bandgap quantum anomalous Hall insulator in ultra-thin MnBi2Te4
Chi Xuan Trang,Qile Li,Yuefeng Yin,Jinwoong Hwang,Golrokh Akhgar,Iolanda Di Bernardo,Antonija Grubišić-Čabo,Anton Tadich,Michael S. Fuhrer,Sung-Kwan Mo,Nikhil V. Medhekar,Mark T. Edmonds +11 more
TL;DR: Temperature-dependent angle-resolved photoemission spectroscopy is utilized to study epitaxial ultrathin MnBi2Te4 to observe a layer-dependent crossover from a 2D ferromagnetic insulator with a band gap greater than 780 meV in one septuple layer.
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Luttinger liquid behavior in metallic carbon nanotubes
TL;DR: In this article, a review of the current understanding of non-Fermi liquid effects in metallic single-wall nanotubes (SWNTs) is provided, and it is shown that the tunneling density of states exhibits power-law behavior.
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Investigation of the absorption edge of C60 fullerite.
Claudius Hartmann,Michel Zigone,Gerard Martinez,Eric L. Shirley,Eric L. Shirley,Lorin X. Benedict,Lorin X. Benedict,Steven G. Louie,Steven G. Louie,Michael S. Fuhrer,Michael S. Fuhrer,Alex Zettl,Alex Zettl +12 more
TL;DR: Various structures observed in the fundamental absorption edge are assigned to excitonic transitions based on comparison with calculations, including many-electron and electron-hole interaction effects.
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Evolution of electronic states in n-type copper oxide superconductor via electric double layer gating.
Kui Jin,Wei Hu,Beiyi Zhu,Dohun Kim,Jie Yuan,Yujie Sun,Tao Xiang,Michael S. Fuhrer,Michael S. Fuhrer,Ichiro Takeuchi,Richard L. Greene +10 more
TL;DR: In this paper, the authors report on successful tuning the electronic band structure of n-type Pr2−xCexCuO4 (x = 0.15) ultrathin films, via the electric double layer transistor technique.
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Tunable Ultrafast Thermal Relaxation in Graphene Measured by Continuous-Wave Photomixing.
Mohammad M. Jadidi,Ryan J. Suess,Cheng Tan,Xinghan Cai,Kenji Watanabe,Takashi Taniguchi,Andrei B. Sushkov,Martin Mittendorff,James Hone,H. Dennis Drew,Michael S. Fuhrer,Michael S. Fuhrer,Thomas E. Murphy +12 more
TL;DR: A novel photocurrent spectroscopy method that uses the mixing of continuous-wave lasers in a graphene photothermal detector to measure the frequency dependence and nonlinearity of hot-electron cooling in graphene as a function of the carrier concentration and temperature reveals that near the charge neutral point the nonlinear power dependence of the electron cooling is dominated by disorder-assisted collisions.