Dr. Michael Schuett

photo of Michael Schuett Post. Doc.

Paul Scherrer Institute
WHGA/123
5232 Villigen – PSI
Switzerland

Telephone: 3155
E-mail: michael.schuett@psi.ch

Research Interests

My main area of research is the theory of condensed matter. I am especially interested in non-equilibrium properties and transport in critical, interacting and disordered many-body systems. Materials, which develop novel electronic, magnetic, mechanical or optical properties when exposed to a changing environment, are of particular interest. The dynamics of phase transitions, hydrodynamic transport and turbulence, interacting disordered systems in non-equilibrium, relaxation properties close to criticality or competing phases and transport in systems with collective phenomena.

CV

Education

Diploma of Physics, November 2009; University of Karlsruhe, Germany

Thesis: "Interaction effects in electronic transport in graphene"

Diploma Advisor: Prof. A. Mirlin

PhD, January 2013; Karlsruhe institute for Technology, Germany

Thesis: "Coulomb Interaction and Transport in Graphene Structures"

PhD Advisor: Prof. A. Mirlin, Co-Advisor: Prof. J. Schmalian

Mention: "Summa cum Laude"

Honors

Fedor Lynen Research Fellowship from the Humboldt Foundation (2013)

Publications

Origin of the Resistivity Anisotropy in the Nematic Phase of FeSe Tanatar, M. A. and Boehmer, A. E. and Timmons, E. I. and Schütt, M. and Drachuck, G. and Taufour, V. and Kothapalli, K. and Kreyssig, A. and Bud'ko, S. L. and Canfield, P. C. and Fernandes, R. M. and Prozorov, R., Phys. Rev. Lett. 117, 127001 (2016)

Origin of DC and AC conductivity anisotropy in iron-based superconductors: Scattering rate versus spectral weight effects Michael Schütt, Jörg Schmalian, and Rafael M. Fernandes, Phys. Rev. B 94,075111 ,(2016)

Effect of interlayer coupling on the coexistence of antiferromagnetism and superconductivity in Fe pnictide superconductors: A study of Ca_{0.74}La_{0.26}Fe_{1-x}Co_{x}As_2 single crystals Jiang, Shan and Liu, Lian and Schütt, Michael and Hallas, Alannah M. and Shen, Bing and Tian, Wei and Emmanouilidou, Eve and Shi, Aoshuang and Luke, Graeme M. and Uemura, Yasutomo J. and Fernandes, Rafael M. and Ni, Ni, Phys. Rev. B, 93, 174513, (2016)

Collision-dominated nonlinear hydrodynamics in graphene U. Briskot, M. Schütt, I. V. Gornyi, M. Titov, B. N. Narozhny, and A. D. Mirlin, Phys. Rev. B, 92, 115426, (2015)

Antagonistic In-Plane Resistivity Anisotropies from Competing Fluctuations in Underdoped Cuprates Michael Schütt and Rafael M. Fernandes, Physical Review Letters, 115, 027005, (2015)

Magnetoresistance in Two-Component Systems P. S. Alekseev, A. P. Dmitriev, I. V. Gornyi, V. Yu. Kachorovskii, B. N. Narozhny, M. Schütt, and M. Titov, Phys. Rev. Lett., 114, 156601, (2015)

Hydrodynamics in graphene: Linear-response transport B. N. Narozhny, I. V. Gornyi, M. Titov, M. Schütt, and A. D. Mirlin, Physical Review B, 91, 035414, (2015)

Giant Magnetodrag in Graphene at Charge Neutrality M. Titov, R. V. Gorbachev, B. N. Narozhny, T. Tudorovskiy, M. Schütt, P. M. Ostrovsky, I. V. Gornyi, A. D. Mirlin, M. I. Katsnelson, K. S. Novoselov, A. K. Geim, and L. A. Ponomarenko, Phys. Rev. Lett., 111, 166601, (2013)

Coulomb Drag in Graphene Near the Dirac Point M. Schütt, P. M. Ostrovsky, M. Titov, I. V. Gornyi, B. N. Narozhny, and A. D. Mirlin, Phys. Rev. Lett., 110, 026601, (2013)

Coulomb interaction in graphene: Relaxation rates and transport M. Schütt, P. M. Ostrovsky, I. V. Gornyi, and A. D. Mirlin, Phys. Rev. B, 83, 155441, (2011)

Miscellaneous