Publications in the context of the RTG

Physics Library

in chronological order

  • J. F. Rentrop, S. G. Jakobs, and V. Meden,
    “Nonequilibrium transport through a Josephson quantum dot”,
    Phys. Rev. B 89, 235110 (2014)
  • D. M. Kennes, M.J. Schmidt, D. Hübscher, and V. Meden,
    “Renormalization group flows in one-dimensional lattice models: impurity scaling, umklapp scattering and the orthogonality catastrophe”,
    Phys. Rev. B 90, 155129 (2014)
  • M. Golor, T. Reckling, L. Classen, M. M. Scherer, and S. Wessel,
    “Ground state phase diagram of the half-filled bilayer Hubbard model”,
    Phys. Rev. B 90, 195131 (2014)
  • C. Karrasch, D. M. Kennes, and F. Heidrich-Meisner,
    “Spin and thermal conductivity of quantum spin ladders”,
    Phys. Rev. B 91, 115130 (2015)
  • J. F. Rentrop, S. G. Jakobs, and V. Meden,
    “Two-particle irreducible functional renormalization group schemes - a comparative study”,
    J. Phys. A: Math. Theor. 48, 145002 (2015)
  • H. T. Dang, J. Mravlje, A. Georges, and A. J. Millis,
    “Electronic correlations, magnetism and Hund's rule coupling in the ruthenium perovskites SrRuO3 and CaRuO3”,
    Phys. Rev. B 91, 195149 (2015)
  • H. T. Dang, J. Mravlje, A. Georges, and A. J. Millis,
    “Band structure and the THz scale optical conductivity of transition metal oxides:
    theory and application to CaRuO3”,
    Phys. Rev. Lett. 115, 107003 (2015)
  • C. Koop and M. J. Schmidt,
    “Effective spin theories for edge magnetism in graphene zigzag ribbons”,
    Phys. Rev. B 92, 125416 (2015)
  • J. Greitemann, S.Hesselmann, S. Wessel, F. F. Assaad, and M. Hohenadler,
    “Finite-size effects in Luther-Emery phases of Holstein and Hubbard models”,
    Phys. Rev. B 92, 245132 (2015)
  • J. Lichtenstein, J. Winkelmann, D. Sánchez de la Peña, T. Vidović, and E. Di Napoli,
    “Parallel Adaptive Integration in High-Performance Functional Renormalization Group Computations”,
    In: E. Di Napoli, M. A. Hermanns, H. Iliev, A. Lintermann, and A. Peyser (eds), High-Performance Scientific Computing, JHPCS 2016, Lecture Notes in Computer Science, Vol. 10164, Springer
  • A. K. Eissing, V. Meden, and D. M. Kennes,
    “Renormalization in periodically driven quantum dots”,
    Phys. Rev. Lett. 116, 026801 (2016)
  • L. Markhof and V. Meden,
    “The spectral function of the Tomonaga-Luttinger model revisited: power laws and universality”,
    Phys. Rev. B 93, 085108 (2016)
  • T. J. Suzuki, D. M. Kennes, and V. Meden,
    “The current noise of the interacting resonant level model”,
    Phys. Rev. B 93, 085306 (2016)
  • H. T. M. Nghiem, D. M. Kennes, C. Klöckner, V. Meden, and T. A. Costi,
    “The Ohmic two-state system from the perspective of the interacting resonant level model: Thermodynamics and transient dynamics”,
    Phys. Rev. B 93, 165130 (2016)
  • S. Hesselmann and S. Wessel,
    “Thermal Ising transitions in the vicinity of two-dimensional quantum critical points”,
    Phys. Rev. B 93, 155157 (2016)
  • J. F. Rentrop, V. Meden, and S.G. Jakobs,
    “Renormalization group flow of the Luttinger-Ward functional: conserving approximations and application to the Anderson impurity model”,
    Phys. Rev. B 93, 195160 (2016)
  • D. M. Kennes and C. Karrasch,
    “Entanglement scaling of excited states in large one-dimensional many-body localized systems”,
    Phys. Rev. B 93, 245129 (2016)
  • N. Dittmann, J. Splettstoesser, and F. Giazotto,
    “Clocked single-spin source based on a spin-split superconductor”,
    New J. Phys. 18, 083019 (2016)
  • N. Wentzell, S. Florens, T. Meng, V. Meden, and S. Andergassen,
    “Magneto-electric spectroscopy of Andreev bound states in Josephson quantum dots”,
    Phys. Rev. B 94, 085151 (2016)
  • C. Karrasch, D. M. Kennes, and F. Heidrich-Meisner,
    “Thermal conductivity of the one-dimensional Fermi-Hubbard model”,
    Phys. Rev. Lett. 117, 116401 (2016)
  • A. K. Eissing, V. Meden, and D. M. Kennes,
    “Functional renormalization group in Floquet space”,
    Phys. Rev. B 94, 245116 (2016)
  • M. R. Wegewijs, T. Pluecker, and J. Splettstoesser,
    “Geometric phases in strongly interacting, driven open quantum systems”,
    Lecture notes of the 48th IFF Spring school on “Topological Matter - Topological Insulators, Skyrmions and Majoranas” (2017)
  • D. M. Kennes, J.C. Pommerening, J. Diekmann, C. Karrasch, and V. Meden,
    “Small quenches and thermalization”,
    Phys. Rev. B 95, 035147 (2017)
  • D. Sánchez de la Peña, J. Lichtenstein, and C. Honerkamp,
    “Competing electronic instabilities of extended Hubbard models on the honeycomb lattice: A functional Renormalization Group calculation with high wavevector resolution”,
    Phys. Rev. B 95, 085151 (2017)
  • J. Lichtenstein, D. Sánchez de la Peña, D. Rohe, E. Di Napoli, C. Honerkamp, and S. A. Maier,
    “High-performance functional renormalization group calculations for interacting fermions”,
    Computer Physics Communications, Vol. 213, April 2017, Pp. 100-110
  • T. Pluecker, M. R. Wegewijs, and J. Splettstoesser,
    “Gauge freedom in observables and Landsbergs nonadiabatic geometric phase: pumping spectroscopy of interacting open quantum systems”,
    Phys. Rev. B 95, 155431 (2017)
  • K. Duivenvoorden, M. Iqbal, J. Haegeman, F. Verstraete, and N. Schuch,
    “Entanglement phases as holographic duals of anyon condensates”,
    Phys. Rev. B 95, 235119 (2017)
  • J. Becker, T. Köhler, A. C. Tiegel, S. R. Manmana, S. Wessel, and A. Honecker,
    "Finite-temperature dynamics and thermal intraband magnon scattering in Haldane spin-one chains",
    Phys. Rev. B 96, 060403(R) (2017)
  • C. Koop and S. Wessel,
    “Quantum phase transitions in effective spin-ladder models for graphene zigzag nanoribbons”,
    Phys. Rev. B 96, 165114 (2017)
  • H. T. M. Nghiem, and T. A. Costi,
    “Time evolution of the Kondo resonance in response to a quench”,
    Phys. Rev. Lett. 119, 156601 (2017)
  • A. Khedri, V. Meden, and T. A. Costi,
    “The influence of phonon-assisted tunneling on the linear thermoelectric transport through molecular quantum dots”,
    Phys. Rev. B 96, 195196 (2017)
  • A. Khedri, V. Meden, and T. A. Costi,
    “Exponential and power-law renormalization in phonon-assisted tunneling”,
    Phys. Rev. B 96, 195155 (2017)
  • T. Pluecker, M. R. Wegewijs, and J. Splettstoesser,
    “Meter calibration and the geometric pumping process in open quantum systems”,
    arXiv 1711.10431 (2017)
  • D. Sánchez de la Peña, J. Lichtenstein, C. Honerkamp, and M. M. Scherer,
    “Antiferromagnetism and competing charge instabilities of electrons in strained graphene from Coulomb interactions”,
    Phys. Rev. B 96, 205155 (2017)
  • C. Honerkamp,
    “Influence of hopping selfenergy and quasiparticle degradation on the antiferromagnetic ordering in the bilayer honeycomb Hubbard model”,
    Phys. Rev. B 96, 245134 (2017)
  • N. Dittmann, J. Splettstoesser, and N. Helbig,
    “Non-adiabatic dynamics in single-electron tunneling devices with time-dependent density functional theory”,
    Phys. Rev. Lett. 120, 157701 (2018)
  • N. Dittmann, J. Splettstoesser, and N. Helbig,
    “Equilibrium finite-frequency noise of an interacting mesoscopic capacitor studied in time-dependent density functional theory”,
    J. Phys.: Conf. Ser. 969 012145 (2018)
  • V. Reimer, K. G. L. Pedersen, N. Tanger, M. Pletyukhov, and V. Gritsev,
    “Nonadiabatic effects in periodically driven dissipative open quantum systems",
    Phys. Rev. A 97, 043851 (2018)
  • G. A. H. Schober, J.Ehrlich, T. Reckling, and C. Honerkamp,
    “Truncated unity functional renormalization group for multiband systems with spin-orbit coupling”,
    Frontiers in Physics 6, 32 (2018)
  • M. Iqbal, K. Duivenvoorden, and N. Schuch,
    “Study of anyon condensation and topological phase transitions from a Z4 topological phase using projected entangled pair states”,
    Phys. Rev. B 97, 195124 (2018)
  • P. Suchsland and S. Wessel,
    “Parameter diagnostics of phases and phase transition learning by neural networks”,
    Phys. Rev. B 97, 174435 (2018)
  • L. Markhof, B. Sbierski, V. Meden, and C. Karrasch,
    “Detecting phases in one-dimensional many-fermion systems with the functional renormalization group”,
    Phys. Rev. B 97, 235126 (2018)
  • C. J. Lindner, F. B. Kugler, H. Schoeller, and J. von Delft,
    “Flavor fluctuations in 3-level quantum dots: Generic SU(3)-Kondo fixed point in equilibrium and non-Kondo fixed points in nonequilibrium”,
    Phys. Rev. B 97, 235450 (2018)
  • S. Hesselmann, D. D. Scherer, M. M. Scherer, and S. Wessel,
    “Bond-ordered states and f-wave pairing of spinless fermions on the honeycomb lattice”,
    Phys. Rev. B 98, 045142 (2018)
  • T. Reckling and C. Honerkamp,
    “Approximating the frequency dependence of the effective interaction in the functional renormalization group for many-fermion systems”,
    Phys. Rev. B 98, 085114 (2018)
  • J. Becker and S. Wessel,
    “Diagnosing fractionalization from the spin dynamics of Z2 spin liquids on the Kagome lattice by quantum Monte Carlo",
    Phys. Rev. Lett. 121, 077202 (2018)
  • C. J. Eckhardt, G. A.H. Schober, J. Ehrlich, and C. Honerkamp,
    “Truncated-unity parquet equations: Application to the repulsive Hubbard model”,
    Phys. Rev. B 98, 075143 (2018)
  • B. A. Placke, T. Pluecker, J. Splettstoesser, and M. R. Wegewijs,
    “Attractive and driven interactions in quantum dots: Mechanisms for geometric pumping”,
    Phys. Rev. B 98, 085307 (2018)
  • N. Dittmann and J. Splettstoesser,
    “Finite-frequency noise of interacting single-electron emitters: Spectroscopy with higher noise harmonics”,
    Phys. Rev. B 98, 115414 (2018)
  • C. J. Lindner and H. Schoeller,
    “Dissipative quantum mechanics beyond Bloch-Redfield: A consistent weak-coupling expansion of the ohmic spin boson model at arbitrary bias”,
    Phys. Rev. B 98, 115425 (2018)
  • A. R. Hamann, C. Müller, M. Jerger, M. Zanner, J. Combes, M. Pletyukhov, M. Weides, Th. M. Stace, and A. Fedorov,
    “Nonreciprocity Realized with Quantum Nonlinearity”,
    Phys. Rev. Lett. 121, 123601 (2018)
  • J. Stapmanns, P. Corboz, F. Mila, A. Honecker, B. Normand, and S. Wessel,
    “Thermal critical points and quantum critical end point in the frustrated bilayer Heisenberg antiferromagnet",
    Phys. Rev. Lett. 121, 127201 (2018)
  • H. T. M. Nghiem and T. A. Costi,
    “Time-dependent numerical renormalization group method for multiple quenches: Towards exact results for the long-time limit of thermodynamic observables and spectral functions”,
    Phys. Rev. B 98, 155107 (2018)
  • C. Honerkamp,
    “Efficient vertex parametrization for the constrained functional renormalization group for effective low-energy interactions in multiband systems”,
    Phys. Rev. B 98, 155132 (2018)
  • L. Weber, F. P. Toldin, and S. Wessel,
    “Nonordinary edge criticality of two-dimensional quantum critical magnets”,
    Phys. Rev. B 98, 140403(R) (2018)
  • D. Macdougal, A. S. Gibbs, T. Ying, S. Wessel, H. C. Walker, D. Voneshen, F. Mila, H. Takagi, and R. Coldea,
    “Spin dynamics of coupled spin ladders near quantum criticality in Ba2CuTe06”,
    Phys. Rev. B 98, 174410 (2018)
  • S. Wessel, I. Niesen, J. Stapmanns, B: Normand, F. Mila, P. Corboz, and A. Honecker,
    “Thermodynamic properties of the Shastry-Sutherland model from quantum Monte Carlo simulations”,
    Phys. Rev. B 98, 174432 (2018)
  • P. Emonts and S. Wessel,
    “Monte Carlo study of the discontinuous quantum phase transition in the transverse-field Ising model on the pyrochlore lattice”,
    Phys. Rev. B 98, 174433 (2018)
  • A. Khedri, T. A. Costi, and V. Meden,
    “Nonequilibrium thermoelectric transport through vibrating molecular quantum dots”,
    Phys. Rev. B 98 195138 (2018)
  • C. Honerkamp, H. Shinaoky, F. F. Assaad, and P. Werner,
    “On the limitations of cRPA downfolding”,
    Phys. Rev. B 98, 235151 (2018)
  • M. M. Scherer, C. Honerkamp, A. N. Rudenko, E.A. Stepanov, A. I. Lichtenstein, and M. I. Katsnelson,
    “Excitonic instability and unconventional pairing in the nodal-line materials ZrSiS and ZrSiSe”,
    Phys. Rev. B 98, 241112 (2018)
  • A. Tagliavini, C. Hille, F. B. Kugler, S. Andergassen, A. Toschi, and C. Honerkamp,
    “Multiloop functional renormalization group for the two-dimensional Hubbard model: Loop convergence of the response functions”,
    SciPost Phys. 6, 009 (2019)
  • N. Dittmann, N. Helbig, and D. M. Kennes,
    “Dynamics of the Anderson impurity model: benchmarking a non-adiabatic exchange-correlation potential in time-dependent density functional theory”,
    Phys. Rev. B 99, 075417 (2019)
  • T. Ying, K. P. Schmidt, and S. Wessel,
    "Higgs mode of Planar Coupled Spin Ladders and its Observation in C9H18N2CuBr4",
    Phys. Rev. Lett. 122, 127201 (2019)
  • C. J. Lindner, F. B. Kugler, V. Meden, and H. Schoeller,
    "RG transport theory for open quantum systems: charge fluctuations in multilevel quantum dots in and out of equilibrium",
    Phys. Rev. B 99, 205142 (2019)
  • D. M. Kennes, N. Müller, M. Pletyukhov, C. Weber, C. Bruder, F. Hassler, J. Klinovaja, D. Loss, and H. Schoeller,
    “Chiral 1D Floquet topological insulators beyond rotating wave approximation”,
    Phys. Rev. B 100, 041103(R) (2019)
  • J. Musshoff, G. Zhang, E. Koch, and E. Pavarini,
    “Linear-response description of superexchange-driven orbital ordering in K2CuF4”,
    Phys. Rev. B 100, 045116 (2019)
  • V. Reimer, M. R. Wegewijs, K. Nestmann, and M.Pletyukhov,
    "Five approaches to exact open-system dynamics: Complete positivity, divisibility and time-dependent observables",
    J. Chem. Phys. 151, 044101 (2019)
  • V. Reimer and M. Wegewijs,
    “Density-operator evolution: Complete positivity and the Keldysh real-time expansion”,
    SciPost Phys. 7, 012 (2019)
  • D. O. Krimer and M. Pletyukov,
    “Few-mode geometric description of driven-dissipative phase transition in an open quantum system”,
    Phys. Rev. Lett. 123, 110604 (2019)
  • L. Markhof, M. Pleyukhov, and V. Meden,
    "Investigating the roots of the nonlinear Luttinger liquid phenomenology",
    SciPost Phys. 7, 047 (2019)
  • H. T. M. Nghiem, H. T. Dang, and T. A. Costi,
    “Time-dependent spectral functions of the Anderson impurity model in response to a quench with application to time-resolved photoemission spectroscopy”,
    Phys. Rev. B 101, 115117 (2020)
  • Y.-T. Lin, D. M. Kennes, M. Pletyukhov, H. Schoeller, and V. Meden
    "The interacting Rice-Mele model -- bulk and boundaries",
    arXiv: 2004:06325 (2020)
  • J. Odavić, N. Helbig, and V. Meden,
    "Friedel oscillations of one-dimensional correlated fermions from perturbation theory and density functional theory",
    Eur. Phys. J. B 93, 103 (2020)