J
Joerg Schmalian
Researcher at Iowa State University
Publications - 44
Citations - 3039
Joerg Schmalian is an academic researcher from Iowa State University. The author has contributed to research in topics: Superconductivity & Fermi surface. The author has an hindex of 25, co-authored 44 publications receiving 2848 citations. Previous affiliations of Joerg Schmalian include Karlsruhe Institute of Technology & Ames Laboratory.
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The middle way.
TL;DR: Mesoscopic organization in soft, hard, and biological matter is examined in the context of the present understanding of the principles responsible for emergent organized behavior at long wavelengths in very large aggregations of particles.
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Effects of nematic fluctuations on the elastic properties of iron arsenide superconductors.
Rafael M. Fernandes,Lindsay VanBebber,Shobo Bhattacharya,Premala Chandra,Veerle Keppens,David Mandrus,David Mandrus,Michael A. McGuire,Brian C. Sales,Athena S. Sefat,Joerg Schmalian +10 more
TL;DR: It is demonstrated that the changes in the elastic properties of the FeAs systems, as seen in the resonant ultrasound spectroscopy data, can be naturally understood in terms of fluctuations of emerging nematic degrees of freedom.
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Femtosecond population inversion and stimulated emission of dense Dirac fermions in graphene.
Tianqi Li,Liang Luo,Myron Hupalo,Jian Zhang,Jian Zhang,Michael C. Tringides,Joerg Schmalian,Joerg Schmalian,Jigang Wang +8 more
TL;DR: It is shown that strongly photoexcited graphene monolayers with 35 fs pulses quasi-instantaneously build up a broadband, inverted Dirac fermion population, revealing the evolution of the transient state from a hot classical gas to a dense quantum fluid with increasing the photoexcitation.
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Quantum critical scaling in graphene.
Daniel E. Sheehy,Joerg Schmalian +1 more
TL;DR: In this article, the authors show that the emergent relativistic symmetry of electrons in graphene near its quantum critical point implies a crucial importance of the Coulomb interaction and derive scaling laws, valid near the QCP, that dictate the nontrivial magnetic and charge response of interacting graphene.
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Disentangling Cooper-pair formation above the transition temperature from the pseudogap state in the cuprates
Takeshi Kondo,Yoichiro Hamaya,Ari Palczewski,Tsunehiro Takeuchi,Jinsheng Wen,Z. J. Xu,Genda Gu,Joerg Schmalian,Adam Kaminski +8 more
TL;DR: The pseudogap state in the cuprate superconductors shows signs of electronic pair formation above the superconducting temperature as mentioned in this paper, but it is not known whether it is a "precursor" state or a separate state.