Publications
A coherent phonon-induced hidden quadrupolar ordered state in Ca2RuO4
H. Ning, O. Mehio, X. Li, M. Buchhold, M. Driesse, H. Zhao, G. Cao, D. Hsieh
Nature Communications 14, 8258 (2023) [abstract]Universality in driven open quantum matter
L. Sieberer, M. Buchhold, J. Marino, S. Diehl
arXiv:2312.03073 (2023) [arXiv]Robustness and measurement-induced percolation of the surface code
Th. Botzung, M. Buchhold, S. Diehl, M. Müller
arXiv:2311.14338 (2023) [arXiv]Entanglement phases, localization and multifractality of monitored free fermions in two dimensions
K. Chahine and M. Buchhold
arXiv:2309.12391 (2023) [arXiv]Field Theory for the Dynamics of the Open O(N)-model
J. Lang, M. Buchhold, S. Diehl
Phys. Rev. B 109, 064310 (2024) [arXiv, abstract]A Hubbard exciton fluid in a photo-doped antiferromagnetic Mott insulator
O. Mehio, X. Li, H. Ning, Z. Lenarčič, Y. Han, M. Buchhold, Z. Porter, N. J. Laurita, S. D. Wilson, D. Hsieh
Nature Physics 19, 1876-1882 (2023) [abstract]Majorana Loop Models for Measurement-Only Quantum Circuits
K. Klocke and M. Buchhold
Phys. Rev. X 13, 041028 (2023) [arXiv, abstract]Revealing Measurement-Induced Phase Transitions by Pre-Selection
M. Buchhold, T. Müller, S. Diehl
arXiv:2208.10506 (2022) [arXiv]Topological order and entanglement dynamics in the measurement-only XZZX quantum code
K. Klocke and M. Buchhold
Phys. Rev. B 106, 104307 (2022) [arXiv, abstract]Monitored Open Fermion Dynamics: Exploring the interplay of measurement, decoherence and free Hamiltonian evolution
B. Ladewig, S. Diehl, M. Buchhold
Phys. Rev. Research 4, 033001 (2022) [arXiv, abstract]Dynamics of measured many-body quantum chaotic systems
A. Altland, M. Buchhold, S. Diehl, T. Micklitz
Phys. Rev. Research 4, L022066 (2022) [arXiv, abstract]Decoupling of static and dynamic criticality in a driven Mott insulator
A. de la Torre, K. Seyler, M. Buchhold, Y. Baum, G. Zhang, N.J. Laurita, J.W. Harter, L. Zhao, I. Phinney, X. Chen, S.D. Wilson, G. Cao, R.D. Averitt, G. Refael, D. Hsieh
Communications Physics 5, 35 (2022) [arXiv, abstract]Localization crossover and subdiffusive transport in a classical facilitated network model of a disordered, interacting quantum spin chain
K. Klocke, C. D. White, M. Buchhold
Phys. Rev. B 104, 214205 (2021) [arXiv, abstract]Continuous Gaussian Measurements of the Free Boson CFT: An exactly solvable model
Y. Minoguchi, P. Rabl, M. Buchhold
SciPost Phys. 12, 009 (2022) [arXiv, abstract]Measurement-induced dark state phase transitions with long-ranged fermions
Th. Mueller, S. Diehl, M. Buchhold
Phys. Rev. Lett. 128, 010605 (2022) [arXiv, abstract]
Featured in Physics Viewpoint.A learning algorithm with emergent scaling behavior for classifying phase transitions
N. Maskara, M. Buchhold, M. Endres, E. van Nieuwenburg
Phys. Rev. Research 4, L022032 (2022) [arXiv abstract]Effective Theory for the Measurement-Induced Phase Transition of Dirac Fermions
M. Buchhold, Y. Minoguchi, A. Altland, S. Diehl
Phys. Rev. X 11, 041004 (2021) [arXiv, abstract]Hydrodynamic stabilization of self-organied criticality in a driven Rydberg gas
K. Klocke, T. M. Wintermantel, G. Lochead, S. Whitlock, M. Buchhold
Phys. Rev. Lett. 126, 123401 (2021). [arXiv, abstract]Epidemic growth and Griffiths effects on an emergent network of excited atoms
T. M. Wintermantel, M. Buchhold, S. Shevate, M. Morgado, Y. Wang, G. Lochead, S. Diehl, S. Whitlock
Nature Communications 12, 103 (2021). [arXiv, abstract]Entanglement transition in a monitored free fermion chain: From extended criticality to area law
O. Alberton, M. Buchhold, S. Diehl
Phys. Rev. Lett. 126, 170602 (2021) [arXiv, abstract]Signatures of Ultrafast Reversal of Excitonic Order in TaNiSe
H. Ning, O. Mehio, M. Buchhold, T. Kurumaji, G. Refael, J. G. Checkeslky, D. Hsieh
Phys. Rev. Lett. 125, 267602 (2020). [abstract]Observation of Self-Organized Criticality in an Ultracold Atomic Gas
S. Helmrich, A. Arias, G. Lochead, T.M. Wintermantel, M. Buchhold, S. Diehl, and S. Whitlock
Nature 577, 481–486 (2020). [arXiv, abstract]Quantum dynamics in strongly driven random dipolar magnets
M. Buchhold, C.S. Tang, D.M. Silevitch, T.F. Rosenbaum, G. Refael
Phys. Rev. B 101, 214201 (2020). [abstract arXiv]Vanishing density of states in weakly disordered Weyl semimetals
M. Buchhold, S. Diehl, and A. Altland
Phys. Rev. Lett. 121, 215301 (2018). [arXiv, abstract]Controlling excitation avalanches in driven Rydberg gases
K. Klocke, and M. Buchhold
Phys. Rev. A 99, 053616 (2019). [abstract, arXiv]Nodal points of Weyl semimetals survive the presence of moderate disorder
M. Buchhold, S. Diehl, and A. Altland
Phys. Rev. B 98, 205134 (2018). [arXiv, abstract]Phenomenology of First Order Dark State Phase Transitions
D. Roscher, S. Diehl, and M. Buchhold
Phys. Rev. A 98, 062117 (2018). [arXiv, abstract]Thermalization Dynamics of Two Correlated Bosonic Quantum Wires After a Split
S. Huber, M. Buchhold, J. Schmiedmayer, and S. Diehl
Phys. Rev. A 97, 043611 (2018). [arXiv, abstract]Dissipative Dicke Model with Collective Atomic Decay: Bistability, Noise-Driven Activation and Non-Thermal First Order Superradiance Transition
J. Gelhausen, and M. Buchhold
Phys. Rev. A 97, 023807 (2018). [arXiv, abstract]Non-equilibrium effective field theory for absorbing state phase transitions in driven open quantum spin systems
M. Buchhold, B. Everest, M. Marcuzzi, I. Lesanovsky, and S. Diehl
Phys. Rev. B 95, 014308 (2017). [arXiv, abstract]Quantum-optical magnets with competing short- and long-range interactions: Rydberg-dressed spin lattice in an optical cavity
J. Gelhausen, M. Buchhold, A. Rosch, and P. Strack
SciPost Phys. 1(1), 004 (2016). [arXiv, abstract]Many-Body Quantum Optics with Decaying Atomic Spin States: (γ, κ) Dicke model
J. Gelhausen, M. Buchhold, and P. Strack
Phys. Rev. A 95, 063824 (2017). [arXiv, abstract]Background Field Functional Renormalization Group for Absorbing State Phase Transitions
M. Buchhold, and S. Diehl
Phys. Rev. E 94, 012138 (2016). [arXiv, abstract]Absorbing state phase transition with competing quantum and classical fluctuations
M. Marcuzzi, M. Buchhold, S. Diehl, and I. Lesanovsky
Phys. Rev. Lett. 116, 245701 (2016). [arXiv, abstract]Keldysh Field Theory for Driven Open Quantum Systems
L. Sieberer, M. Buchhold, and S. Diehl
Rep. Prog. Phys. 79, 096001 (2016). [arXiv, abstract]Prethermalization and Thermalization of a Quenched Interacting Luttinger Liquid
M. Buchhold, M. Heyl, and S. Diehl
Phys. Rev. A 94, 013601 (2016). [arXiv, abstract]Kinetic Theory for Interacting Luttinger Liquids
M. Buchhold, and S. Diehl
Eur. Phys. J. D 69, 224 (2015). [arXiv, abstract]Non-Equilibrium Universality in the Heating Dynamics of Interacting Luttinger Liquids
M. Buchhold, and S. Diehl
Phys. Rev. A 92, 013603 (2015). [arXiv, abstract]Quasi-Particle Theory for the Higgs Amplitude Mode
U. Bissbort, M. Buchhold, and W. Hofstetter. [arXiv]Dicke Quantum Spin and Photon Glass in Optical Cavities: Non-equilibrium theory and experimental signatures
M. Buchhold, P. Strack, S. Sachdev, and S. Diehl
Phys. Rev. A 87, 063622 (2013). [arXiv, abstract]Correlated Topological Phases and Exotic Magnetism with Ultracold Fermions
P.P. Orth, D. Cocks, S. Rachel, M. Buchhold, K. Le Hur, and W. Hofstetter
J. Phys. B: At. Mol. Opt. Phys. 46, 134004 (2013). [arXiv, abstract]Time-Reversal-Invariant Hofstadter-Hubbard Model with Ultracold Fermions
D. Cocks, P.P. Orth, S. Rachel, M. Buchhold, K. Le Hur, and W. Hofstetter
Phys. Rev. Lett. 109, 205303 (2012). [arXiv, abstract]Effects of Smooth Boundaries on Topological Edge Modes in Optical Lattices
M. Buchhold, D. Cocks, and W. Hofstetter
Phys. Rev. A. 85, 063614 (2012). [arXiv, abstract]Creating exotic condensates via quantum-phase-revival dynamics in engineered lattice potentials
M. Buchhold, U. Bissbort, and W. Hofstetter
Phys. Rev. A 84, 023631 (2011). [arXiv, abstract]
Talks
CRC 183 'Entangled States of Matter' Annual Meeting, Berlin November 18 2021
Measurement-Induced Phase Transitions: Phenomenology and Effective TheoryCondensed matter subject to dissipation and quantum measurements, International Conference at the University of Lviv, Ukraine, September 22 2021
Measurement-Induced Phase Transitions: Phenomenology and Effective TheoryIQMT Seminar, Karlsruhe Institute of Technology, March 3 2021
Measurement-Induced Phase Transitions in Monitored Fermion SystemsCondensed Matter Seminar, Perimeter Institute, June 6 2019
Criticality, self-organization and scale invariant avalanches in spin dynamics away from thermal equilibrium click linkCondensed Matter Colloquium, University of California at Santa Cruz, January 25 2019
Criticality, self-organization and scale invariant avalanches in spin dynamics away from thermal equilibriumCondensed Matter Theory Seminar, Goethe University Frankfurt, December 17 2017
Spin dynamics in away from thermal equilibrium in cold atoms and condensed matter systemsNovel Paradigms in Many-Body Physics from Open Quantum Systems, International Workshop at MPIPKS Dresden, 28.03.2017, Phenomenology of First Order Dark State Phase Transitions
IQIM Seminar, Caltech, 01.12.2017, Exploring Non-Equilibrium Phase Transitions with Driven Rydberg Ensembles
CQD Colloquium, University of Heidelberg, 22.11.2017, Exploring Non-Equilibrium Phase Transitions with Driven Rydberg Systems
Theory Colloquium, Atominstitut Vienna, 13.11.2017, Absorbing State Phase Transitions with Competing Classical and Quantum Fluctuations
Condensed Matter Theory Seminar, University of Frankfurt, 24.04.2017, Absorbing state phase transitions in driven dissipative spin systems
Quantum Dynamics Seminar, Max Planck Institute for the Physics of Complex Systems Dresden, 11.04.2017, Absorbing state phase transitions in driven dissipative spin systems
Condensed Matter Seminar, University of Cologne, 26.10.2016, Exploring Non-Equilibrium Phase Transitions in Driven Rydberg Systems
Condensed Matter Theory Seminar, University of Frankfurt, 24.07.2015, Thermalization and Prethermalization Dynamics in One-dimensional Quantum Fluids
Condensed Matter Theory Seminar, University of Frankfurt, 28.03.2014, Universality in the Heating Dynamics of One-Dimensional Ultracold Bosons