Zusammenfassung der Projektergebnisse

Exploring non-equilibrium fluids: turbulence, collective motion in active matter, dark matter and cosmological large-scale structures: Non-equilibrium fluids are ubiquitous in Nature, they appear at all scales, from exciton-polariton gas in semiconductor micro-cavities to cosmological large-scale structures, they involve constituents of very different nature, from inert molecules in a liquid, or atoms in the early universe to living starlings in moving flocks, and they display a large variety of phenomena, from turbulence to structure formations or Bose-Einstein condensation. Yet they share many universal features, and understanding at a theoretical level the emergence and the nature of their statistical properties is the major challenge that the NEQfluids project has addressed. It has specifically focused on the universal properties of incompressible classical fluids in a turbulent state, the phase diagram of active matter, the macroscopic properties of compressible quantum fluids, both in the primordial universe or in condensates of light in microcavities. The functional renormalisation group as the universal key to unravel the statistical properties of non-equilibrium fluids: The NEQfluids project was based on the use of a common unified method, the functional renormalisation group, to tackle the wide variety of problems it addressed. This is a fieldtheoretical approach, which provides a modern and powerful formulation of Wilson’s original ideas. Its key assets are its versatility, it can be adapted to describe both classical, quantum or active fluids, relativistic or not, with diverse interactions, and its ability to tackle strongly coupled, or non-perturbative problems, which are notoriously difficult to treat in general. The project was supported by the strong expertise of all the participants in these techniques, which enabled fruitful exchanges and many advances. The project also led to new methodological developments, such as the deepened use of extended symmetries, or improved approximation schemes, which will benefit the whole fRG community. Main results: A major result was obtained in the theoretical description of turbulent flows, through the precise characterisation of their space-time correlation functions at large wavenumbers. Another breakthrough was to elucidate the genuinely non-equilibrium nature of condensates of polaritons, surprisingly related to Kardar-Parisi-Zhang universality. We also established an extended fluid description of dark matter structure formation beyond shell crossing and found intriguing possibilities to use quantum fluids as quantum simulators for the dynamics in the early universe. For active matter, we uncovered a new universality class describing the interface roughening during phase separation, which differs from both its equilibrium counterpart and its passive analogue. Scientific production: The results of the project were published in 46 international peered-review journals with high impact factors, including 2 Nature, 2 Nature Physics, 6 PRL, 2 EPL, and 1 Phys. Rep. They were presented in more than 50 invited conferences and seminars. The results concerning non-equilibrium exciton-polariton condensates and quantum simulators of early universe were disseminated towards a wide audience through 8 vulgarisation articles. Two numerical codes were produced and made available to the community. The project also led to many theoretical developments valuable for the fRG community.

Projektbezogene Publikationen (Auswahl)

• Quark confinement and the hadron spectrum, Dublin (2018), Quantum information and strongly interacting theories (plenary talk)
  S. Floerchinger
  
• 5th International Conference on the Initial Stages in High-Energy Nuclear Collisions, New York (2019), Thermalization across energy scales
  J. Berges
  
• Constrained Many-body Dynamics, Dresden (2019), Quantum anomalies and topological transitions in gauge theories far from equilibrium
  J. Berges
  
• Evolution of dark matter velocity dispersion. Journal of Cosmology and Astroparticle Physics, 2019(06), 039-039.
  Erschfeld, Alaric & Floerchinger, Stefan
  
• Interface Roughening in Nonequilibrium Phase-Separated Systems. Physical Review Letters, 130(18).
  Besse, M.; Fausti, G.; Cates, M. E.; Delamotte, B. & Nardini, C.
  
• Kardar-Parisi-Zhang equation with temporally correlated noise: A nonperturbative renormalization group approach. Physical Review E, 100(6).
  Squizzato, Davide & Canet, Léonie
  
• MECO44, Kloster Seeon, Germany (2019) Key Challenges in Statistical Physics
  H. Chate
  
• Primordial dark matter halos from fifth forces. Physical Review D, 100(8).
  Savastano, Stefano; Amendola, Luca; Rubio, Javier & Wetterich, Christof
  
• Stationary, isotropic and homogeneous two-dimensional turbulence: a first non-perturbative renormalization group approach. Journal of Physics A: Mathematical and Theoretical, 52(8), 085501.
  Tarpin, Malo; Canet, Léonie; Pagani, Carlo & Wschebor, Nicolás
  
• The dark matter bispectrum from effective viscosity and one-particle irreducible vertices. Journal of Cosmology and Astroparticle Physics, 2019(09), 047-047.
  Floerchinger, Stefan; Garny, Mathias; Katsis, Aris; Tetradis, Nikolaos & Wiedemann, Urs Achim
  
• Theoretical Foundations of Relativistic Hydrodynamics, Banff (2019), A quantum information perspective on relativistic fluid dynamics and quantum fields out-ofequilibrium
  S. Floerchinger
  
• Accessing Kardar-Parisi-Zhang universality sub-classes with exciton polaritons (a). Europhysics Letters, 132(6), 67004.
  Deligiannis, Konstantinos; Squizzato, Davide; Minguzzi, Anna & Canet, Léonie
  
• Analysis of the dissipative range of the energy spectrum in grid turbulence and in direct numerical simulations. Physical Review Fluids, 5(4).
  Gorbunova, Anastasiia; Balarac, Guillaume; Bourgoin, Mickaël; Canet, Léonie; Mordant, Nicolas & Rossetto, Vincent
  
• ERG 2020 – 10th International conference on the exact renormalisation group, Kyoto (online) (2020) Time dependence of correlation functions in homogeneous and isotropic turbulence
  L. Canet
  
• ERG 2022 – 11th International conference on the exact renormalisation group, Berlin (2020) Structure functions in shell models of turbulence
  L. Canet
  
• ERG 2022 – 11th International conference on the exact renormalisation group, Berlin (2022) Functional renormalization for the beginning and the present Universe
  C. Wetterich
  
• Experimental extraction of the quantum effective action for a non-equilibrium many-body system. Nature Physics, 16(10), 1012-1016.
  Prüfer, Maximilian; Zache, Torsten V.; Kunkel, Philipp; Lannig, Stefan; Bonnin, Alexis; Strobel, Helmut; Berges, Jürgen & Oberthaler, Markus K.
  
• Extracting the Field Theory Description of a Quantum Many-Body System from Experimental Data. Physical Review X, 10(1).
  Zache, Torsten V.; Schweigler, Thomas; Erne, Sebastian; Schmiedmayer, Jörg & Berges, Jürgen
  
• General relativistic nonideal fluid equations for dark matter from a truncated cumulant expansion. Physical Review D, 102(6).
  Erschfeld, Alaric; Floerchinger, Stefan & Rupprecht, Maximilian
  
• PLMCN 2020 -- International conference on Physics of Light–Matter Coupling, Clermont (on-line) (2020) Kardar-Parisi-Zhang universality in 1D exciton-polariton systems
  L. Canet
  
• Real scalar field, the nonrelativistic limit, and the cosmological expansion. Physical Review D, 102(3).
  Heyen, Lars H. & Floerchinger, Stefan
  
• Second law of thermodynamics for relativistic fluids formulated with relative entropy. Physical Review D, 102(10).
  Dowling, Neil; Floerchinger, Stefan & Haas, Tobias
  
• Spectral, statistical, and vertex functions in scalar quantum field theory far from equilibrium. Physical Review D, 101(5).
  Shen, Linda & Berges, Jürgen
  
• Backreaction from inhomogeneous matter fields during large-scale structure formation. Physical Review D, 104(8).
  Floerchinger, Stefan; Tetradis, Nikolaos & Wiedemann, Urs Achim
  
• Cosmology from pregeometry. Physical Review D, 104(10).
  Wetterich, C.
  
• Eulerian spatiotemporal correlations in passive scalar turbulence. Physical Review Fluids, 6(12).
  Gorbunova, Anastasiia; Pagani, Carlo; Balarac, Guillaume; Canet, Léonie & Rossetto, Vincent
  
• Nonequilibrium polarity-induced chemotaxis: Emergent Galilean symmetry and exact scaling exponents. Physical Review Research, 3(1).
  Mahdisoltani, Saeed; Zinati, Riccardo Ben Alì; Duclut, Charlie; Gambassi, Andrea & Golestanian, Ramin
  
• Real Clifford Algebras and Their Spinors for Relativistic Fermions. Universe, 7(6), 168.
  Floerchinger, Stefan
  
• Spatial entanglement in interacting Bose-Einstein condensates. Physical Review A, 103(4).
  Sánchez-Kuntz, N. & Floerchinger, S.
  
• Spatio-temporal correlation functions in scalar turbulence from functional renormalization group. Physics of Fluids, 33(6).
  Pagani, Carlo & Canet, Léonie
  
• Spatio-temporal correlations in three-dimensional homogeneous and isotropic turbulence. Physics of Fluids, 33(4).
  Gorbunova, A.; Balarac, G.; Canet, L.; Eyink, G. & Rossetto, V.
  
• Stochastic dynamics of chemotactic colonies with logistic growth. Europhysics Letters, 136(5), 50003.
  Ben, Alì Zinati Riccardo; Duclut, Charlie; Mahdisoltani, Saeed; Gambassi, Andrea & Golestanian, Ramin
  
• Supersymmetries in nonequilibrium Langevin dynamics. Physical Review E, 104(4).
  Marguet, Bastien; Agoritsas, Elisabeth; Canet, Léonie & Lecomte, Vivien
  
• The nonperturbative functional renormalization group and its applications. Physics Reports, 910, 1-114.
  Dupuis, N.; Canet, L.; Eichhorn, A.; Metzner, W.; Pawlowski, J.M.; Tissier, M. & Wschebor, N.
  
• Condensation and thermalization of an easy-plane ferromagnet in a spinor Bose gas. Nature Physics, 18(12), 1459-1463.
  Prüfer, Maximilian; Spitz, Daniel; Lannig, Stefan; Strobel, Helmut; Berges, Jürgen & Oberthaler, Markus K.
  
• Conserved and nonconserved Noether currents from the quantum effective action. Physical Review D, 105(8).
  Floerchinger, Stefan & Grossi, Eduardo
  
• Cosmological functional renormalization group, extended Galilean invariance, and approximate solutions to the flow equations. Physical Review D, 105(2).
  Erschfeld, Alaric & Floerchinger, Stefan
  
• Critical Probability Distributions of the Order Parameter from the Functional Renormalization Group. Physical Review Letters, 129(21).
  Balog, I.; Rançon, A. & Delamotte, B.
  
• Curved and expanding spacetime geometries in Bose-Einstein condensates. Physical Review A, 106(3).
  Tolosa-Simeón, Mireia; Parra-López, Álvaro; Sánchez-Kuntz, Natalia; Haas, Tobias; Viermann, Celia; Sparn, Marius; Liebster, Nikolas; Hans, Maurus; Kath, Elinor; Strobel, Helmut; Oberthaler, Markus K. & Floerchinger, Stefan
  
• Dense polar active fluids in a disordered environment. Physical Review E, 105(6).
  Zinati, Riccardo Ben Alì; Besse, Marc; Tarjus, Gilles & Tissier, Matthieu
  
• Essential renormalisation group. SciPost Physics, 13(4).
  Baldazzi, Alessio; Ben, Ali Zinati Riccardo & Falls, Kevin
  
• Functional renormalisation group for turbulence. Journal of Fluid Mechanics, 950.
  Canet, Léonie
  
• FunQCD, Valencia (2022), Conserved and non-conserved Noether currents from the quantum effective action
  S. Floerchinger
  
• Kardar-Parisi-Zhang universality in discrete two-dimensional driven-dissipative exciton polariton condensates. Physical Review Research, 4(4).
  Deligiannis, Konstantinos; Fontaine, Quentin; Squizzato, Davide; Richard, Maxime; Ravets, Sylvain; Bloch, Jacqueline; Minguzzi, Anna & Canet, Léonie
  
• Kardar–Parisi–Zhang universality in a one-dimensional polariton condensate. Nature, 608(7924), 687-691.
  Fontaine, Quentin; Squizzato, Davide; Baboux, Florent; Amelio, Ivan; Lemaître, Aristide; Morassi, Martina; Sagnes, Isabelle; Le Gratiet, Luc; Harouri, Abdelmounaim; Wouters, Michiel; Carusotto, Iacopo; Amo, Alberto; Richard, Maxime; Minguzzi, Anna; Canet, Léonie; Ravets, Sylvain & Bloch, Jacqueline
  
• Metastability of Constant-Density Flocks. Physical Review Letters, 129(26).
  Besse, Marc; Chaté, Hugues & Solon, Alexandre
  
• PIF2022, Physics of Intense Fields (on-line) (2022), Pair production of phonons in Bose-Einstein condensates with curved and expanding acoustic metric
  S. Floerchinger
  
• Pregeometry and spontaneous time-space asymmetry. Journal of High Energy Physics, 2022(6),.
  Wetterich, C.
  
• Qualifying collective behavior in expanding ultracold gases as a function of particle number. Physical Review C, 105(4).
  Floerchinger, Stefan; Giacalone, Giuliano; Heyen, Lars H. & Tharwat, Leena
  
• Quantum field simulator for dynamics in curved spacetime. Nature, 611(7935), 260-264.
  Viermann, Celia; Sparn, Marius; Liebster, Nikolas; Hans, Maurus; Kath, Elinor; Parra-López, Álvaro; Tolosa-Simeón, Mireia; Sánchez-Kuntz, Natalia; Haas, Tobias; Strobel, Helmut; Floerchinger, Stefan & Oberthaler, Markus K.
  
• Scalar quantum fields in cosmologies with2+1spacetime dimensions. Physical Review D, 105(10).
  Sánchez-Kuntz, Natalia; Parra-López, Álvaro; Tolosa-Simeón, Mireia; Haas, Tobias & Floerchinger, Stefan
  
• Small Obstacle in a Large Polar Flock. Physical Review Letters, 128(21).
  Codina, Joan; Mahault, Benoît; Chaté, Hugues; Dobnikar, Jure; Pagonabarraga, Ignacio & Shi, Xia-qing
  
• Susceptibility of Polar Flocks to Spatial Anisotropy. Physical Review Letters, 128(20).
  Solon, Alexandre; Chaté, Hugues; Toner, John & Tailleur, Julien
  
• Electrical conductivity of the quark-gluon plasma from the low energy limit of photon and dilepton spectra. Physics Letters B, 837, 137647.
  Floerchinger, Stefan; Gebhardt, Charlotte & Reygers, Klaus
  
• Equal-time approach to real-time dynamics of quantum fields. SciPost Physics, 14(2).
  Ott, Robert; Zache, Torsten V. & Berges, Jürgen
  
• ETC18 – European Turbulence Conference (scheduled Zurich 2021 – reported Valencia 2023), Functional renormalisation group approach to turbulence
  L. Canet
  
• ICTS Turbulence: Problems at the interface and Mathematics and Physics, Bangalore (2023) Functional renormalisation group approach to turbulence
  L. Canet
  
• Nonequilibrium dynamics of fluctuations in an ultracold atomic mixture. Physical Review A, 107(3).
  Hegde, Apoorva; Ott, Robert; Xia, Andy; Kasper, Valentin; Berges, Jürgen & Jendrzejewski, Fred
  
• Stable and Unstable Perturbations in Universal Scaling Phenomena Far from Equilibrium. Physical Review Letters, 130(3).
  Preis, Thimo; Heller, Michal P. & Berges, Jürgen
  
• Dark matter vorticity and velocity dispersion from truncated Dyson-Schwinger equations. Journal of Cosmology and Astroparticle Physics, 2024(02), 053.
  Erschfeld, Alaric & Floerchinger, Stefan