[29]
R. Schmidt, M. Knap, D. A. Ivanov, J.-S. You, M. Cetina, and E. Demler
Universal many-body response of heavy impurities coupled to a Fermi sea
[28]
M. Lemeshko, and R. Schmidt
Molecular impurities interacting with a many-particle environment: from ultracold gases to helium nanodroplets
Book chapter in
“Cold Chemistry: Molecular Scattering and Reactivity Near Absolute Zero”
edited by A. Osterwalder and O. Dulieu, Royal Society of Chemistry (2018)
[27]
R. Schmidt, J. D. Whalen, R. Ding, F. Camargo, G. Woehl Jr., S. Yoshida, J. Burgdorfer, F. B. Dunning, E. Demler, H. R. Sadeghpour, and T. C. Killian
Theory of excitation of Rydberg polarons in an atomic quantum gas
submitted [arXiv:1709.01838]
[26]
C. Langmack, R. Schmidt, and W. Zwerger
Efimov states near a Feshbach resonance and the limits of van der Waals universality at finite background scattering length
submitted [arXiv:1709.00749]
[25]
F. Camargo, R. Schmidt, J. D. Whalen, R. Ding, G. Woehl Jr., S. Yoshida, J. Burgdorfer, F. B. Dunning, H. R. Sadeghpour, E. Demler, and T. C. Killian
Creation of Rydberg Polarons in a Bose Gas
submitted [arXiv:1706.03717]
[24]
A. Mazurenko, C. S. Chiu, G. J. Ji, M. F. Parsons, M. Kanasz-Nagy, R. Schmidt, F. Grusdt, E. Demler, D. Greif, and M. Greiner
A cold-atom Fermi–Hubbard antiferromagnet
News and Views by Thierry Giamarchi: "Quantum physics: A firmer grip on the Hubbard model", Nature 545, 414 (2017).
[23]
F. Grusdt, R. Schmidt, Y. Shchadilova, and E. Demler
Strong coupling Bose polarons in a BEC
[22]
J. M. Pawlowski, M. M. Scherer, R. Schmidt, and S. J. Wetzel
Functional Renormalization Group Flows and the Physics of Regulator Choice
[21]
K. Agarwal, R. Schmidt, B. Halperin, V. Oganesyan, G. Zarand, M. D. Lukin, E. Demler
Magnetic noise spectroscopy as a probe of local electronic correlations in two-dimensional systems
[20]
Y. Ashida, R. Schmidt, L. Tarruell, and E. Demler
Many-body interferometry of magnetic polaron dynamics
submitted [arXiv:1701.01454]
[18]
S. Markson, S. T. Rittenhouse, R. Schmidt, J. P. Shaffer, and H. R. Sadeghpour
Theory of ultralong-range Rydberg molecule formation incorporating spin-dependent relativistic effects: Cs(6s)–Cs(np) as case study
[17]
B. Midya, M. Tomza, R. Schmidt, and M. Lemeshko
Rotation of cold molecular ions inside a Bose-Einstein condensate
[16]
Y. Shchadilova, R. Schmidt, F. Grusdt, and E. Demler
Quantum dynamics of ultracold Bose polarons
[15]
M. Cetina, M. Jag, R. S. Lous, I. Fritsche, J. T. M. Walraven, R. Grimm, J. Levinsen, M. M. Parish, R. Schmidt, M. Knap, and E. Demler
Ultrafast many-body interferometry of impurities coupled to a Fermi sea
[14]
R. Schmidt, H. Sadeghpour, and E. Demler
A mesoscopic Rydberg impurity in an atomic quantum gas
[13]
R. Schmidt, and M. Lemeshko
Deformation of a quantum many-particle system by a rotating impurity
[12]
R. Schmidt, and M. Lemeshko
Rotation of Quantum Impurities in the Presence of a Many-Body Environment
Phys. Rev. Lett. 114, 203001 (2015) [Editor’s suggestion]
[11]
[10]
R. Schmidt, S. P. Rath, and W. Zwerger
Efimov physics beyond universality
[9]
R. Schmidt, T. Enss, V. Pietilä, and E. Demler
Fermi polarons in two dimensions
[8]
R. Schmidt, and T. Enss
Excitation spectra and rf response near the polaron-to-molecule transition from the functional renormalization group
[7]
S. Floerchinger, S. Moroz, and R. Schmidt
Efimov Physics from the Functional Renormalization Group
[6]
R. Schmidt, and S. Moroz,
Renormalization-group study of the four-body problem
[5]
S. Moroz, and R. Schmidt
Nonrelativistic inverse square potential, scale anomaly, and complex extension
[4]
R. Schmidt, and S. Moroz
Functional renormalization-group approach to the four-body problem
EPJ Web of Conf. 3, 19th International IUPAP Conference on Few-Body Problems in Physics (2010)
[3]
S. Floerchinger, R. Schmidt, and C. Wetterich
Three-body loss in lithium from functional renormalization
[2]
S. Moroz, S. Floerchinger, R. Schmidt, and C. Wetterich
Efimov effect from functional renormalization
[1]
S. Floerchinger, R. Schmidt, S. Moroz, and C. Wetterich,
Functional renormalization for trion formation in ultracold fermion gases