Project 1:
Quantum thermalization control
This list summarizes the publications per project since the project start in 2019. If a given publication applies to more than one project, it is listed twice, but once in
light grey, to avoid double counting. We are particularly happy about the inter-node publications Berlin-Vienna, Berlin-Mainz, Weizmann-Heidelberg, Stuttgart-Vienna, Mainz-Kassel-Stuttgart, Heidelberg-Stuttgart.
- Quantum field thermal machines
M. Gluza, J. Sabino, N. H. Y. Ng, G. Vitagliano, M. Pezzutto, Y. Omar, I. Mazets, M. Huber, J. Schmiedmayer, J. Eisert
PRX Quantum 2, 030310 (2021) - Quantum read-out for cold atomic quantum simulators
M. Gluza, T. Schweigler, B. Rauer, C. Krumnow, J. Schmiedmayer, J. Eisert
Communications Physics (Nature) 3, 12 (2020) - Decay and recurrence of non-Gaussian correlations in a quantum many-body system
T. Schweigler, M. Gluza, M. Tajik, S. Sotiriadis, F. Cataldini, S.-C. Ji, S. Møller, J. Sabino, B. Rauer, J. Eisert, J. Schmiedmayer
Nature Physics 17, 559 (2021) - Minimal quantum heat manager boosted by bath spectral filtering
M. T. Naseem, A. Misra, Ö. E. Müstecaplıoğlu, G. Kurizki
Phys. Rev. Research 2, 033285 (2020) - Entanglement-ergodic quantum systems equilibrate exponentially well
H. Wilming, M. Goihl, I. Roth, J. Eisert
Phys. Rev. Lett. 122, 200604 (2019) - By-passing fluctuation theorems
P. Boes, R. Gallego, N. H. Y. Ng, J. Eisert, H. Wilming
Quantum 4, 231 (2020) - Thermodynamic implementations of quantum processes
P. Faist, M. Berta, F. G. S. L. Brandao
Commun. Math. Phys. 384, 1709 (2021) - Floquet engineering topological many-body localized systems
K. S. C. Decker, C. Karrasch, J. Eisert, D. M. Kennes
Phys. Rev. Lett. 124, 190601 (2020) - Anti-Zeno quantum advantage in fast-driven heat machines
V. Mukherjee, A. G. Kofman, G. Kurizki
Communications Physics (Nature) 3, 8 (2020) - From the moving piston to the dynamical Casimir effect: explorations with shaken condensates
M. H. Michael, J. Schmiedmayer, E. Demler
Phys. Rev. A 99, 053615 (2019) - Time evolution of many-body localized systems in two spatial dimensions
A. Kshetrimayum, M. Goihl, J. Eisert
Phys. Rev. B 102, 235132 (2020) - Quantum time crystals with programmable disorder in higher dimensions
A. Kshetrimayum, M. Goihl, D. M. Kennes, J. Eisert
Phys. Rev. B 103, 224205 (2021) - Bounding the resources for thermalizing many-body localized systems
C. Sparaciari, M. Goihl, P. Boes, J. Eisert, N. H. Y. Ng
Communications Physics (Nature) 4, 3 (2021) - Transparent reporting of research-related greenhouse gas emissions through the scientific CO2nduct initiative
R. Sweke, P. Boes, N. Ng, C. Sparaciari, J. Eisert, M. Goihl
Communications Physics (Nature) 5, 150 (2022) - Are many-body localized systems stable in the presence of a small bath?
M. Goihl, J. Eisert, C. Krumnow
Phys. Rev. B 99, 195145 (2019) - Dynamical structure factors of dynamical quantum simulators
M. L. Baez, M. Goihl, J. Haferkamp, J. Bermejo-Vega, M. Gluza, J. Eisert
PNAS 117, 26123-26134 (2020)
- Quantum certification and benchmarking
J. Eisert, D. Hangleiter, N. Walk, I. Roth, D. Markham, R. Parekh, U. Chabaud
Nature Rev. Phys. 2, 382 (2020) - Von Neumann entropy from unitarity
P. Boes, J. Eisert, R. Gallego, M. P. Mueller, H. Wilming
Phys. Rev. Lett. 122, 210402 (2019) - The variance of relative surprisal as single-shot quantifier
P. Boes, N. H. Y. Ng, H. Wilming
arXiv:2009.08391 (2020) - The first law of general quantum resource theories
C. Sparaciari, L. del Rio, C. M. Scandolo, P. Faist, J. Oppenheim
Quantum 4, 259 (2020) - Stark time crystals: Symmetry breaking in space and time
A. Kshetrimayum, J. Eisert, D. M. Kennes
Phys. Rev. B 102, 195116 (2020)
- Recovering quantum correlations in optical lattices from interaction quenches
M. Gluza, J. Eisert
Phys. Rev. Lett. 127, 090503 (2021) - Relaxation in an extended bosonic Josephson junction
J.-F. Mennemann, I. E. Mazets, M. Pigneur, H. Peter Stimming, N. J. Mauser, J. Schmiedmayer, S. Erne
arXiv:2012.05885 (2020) - Emergent statistical mechanics from properties of disordered random matrix product states
J. Haferkamp, C. Bertoni, T. Roth, J. Eisert
PRX Quantum 2, 040308 (2021) - Thermodynamic uncertainty relation in slowly driven quantum heat engines
H. J. D. Miller, M. Hamed Mohammady, M. Pernarnau-Llobet, G. Guarnieri
Phys. Rev. Lett. 126, 210603 (2021) - Asymptotic reversibility of thermal operations for interacting quantum spin systems via generalized quantum Stein’s lemma
T. Sagawa, P. Faist, K. Kato, K. Matsumoto, H. Nagaoka, F. G. S. L. Brandao
J. Phys. A 54, 495303 (2021) - Mechanisms for the emergence of Gaussian correlations
M. Gluza, T. Schweigler, M. Tajik, J. Sabino, F. Cataldini, F. S. Møller, S.-C. Ji, B. Rauer, J. Schmiedmayer, J. Eisert, S. Sotiriadis
SciPost Phys. 12, 113 (2022) - Optimizing optical potentials with physics-inspired learning algorithms
M. Calzavara, Y. Kuriatnikov, A. Deutschmann-Olek, F. Motzoi, S. Erne, A. Kugi, T. Calarco, J. Schmiedmayer, M. Prüfer
arXiv:2210.07776 (2022)
- The Whitham approach to generalized hydrodynamics
F. Møller, P. Schüttelkopf, J. Schmiedmayer, S. Erne,
arXiv:2304.10533 (2023) - Optimal control of quasi-1D Bose gases in optical box potentials
A. Deutschmann-Olek, K. Schrom, N. Würkner, J. Schmiedmayer, S. Erne, A. Kugi
arXiv:2304.01051 (2023) - Experimental observation of curved light-cones in a quantum field simulator
M. Tajik, M. Gluza, N. Sebe, P. Schüttelkopf, F. Cataldini, J. Sabino, F. Møller, S.-C. Ji, S. Erne, G. Guarnieri, S. Sotiriadis, J. Eisert, J. Schmiedmayer
PNAS 120, e2301287120 (2023) - Experimental verification of the area law of mutual information in a quantum field simulator
M. Tajik, I. Kukuljan, S. Sotiriadis, B. Rauer, T. Schweigler, F. Cataldini, J. Sabino, F. Møller, P. Schüttelkopf, S.-C. Ji, D. Sels, E. Demler, J. Schmiedmayer
Nature Physics 19, 1022 (2023) - Measuring out quasi-local integrals of motion from entanglement
B. Lu, C. Bertoni, S. J. Thomson, J. Eisert
Communications Physics, in press, arXiv:2301.01787 (2023) - Quantum simulation of thermodynamics in an integrated quantum photonic processor
F. H. B Somhorst, R. van der Meer, M. Correa Anguita, R. Schadow, H. J. Snijders, M. de Goede, B. Kassenberg, P. Venderbosch, C. Taballione, J. P. Epping, H. H. van den Vlekkert, J. Timmerhuis, J. F. F. Bulmer, J. Lugani, I. A. Walmsley, P. W. H. Pinkse, J. Eisert, N. Walk, J. J. Renema
Nature Commun. 14, 3895 (2023) - Identifying diffusive length scales in one-dimensional Bose gases
F. Møller, F. Cataldini, J. Schmiedmayer
arXiv:2312.14007 (2023) - Generalized hydrodynamics: a perspective
B. Doyon, S. Gopalakrishnan, F. Møller, J. Schmiedmayer, R. Vasseur
arXiv:2311.03438 (2023)
- Quantum coding with finite thermodynamic resources
J. Xuereb, T. Debarba, M. Huber, P. Erker
arXiv:2311.14561 (2023) - DiVincenzo-like criteria for autonomous quantum machines
J. A. Marín Guzmán, P. Erker, S. Gasparinetti, M. Huber, N. Yunger Halpern
arXiv:2307.08739 (2023) - Quantum measurements and equilibration: the emergence of objective reality via entropy maximisation
E. Schwarzhans, F. C. Binder, M. Huber, M. P. E. Lock
arXiv:2302.11253 (2023) - The impact of imperfect timekeeping on quantum control
J. Xuereb, F. Meier, P. Erker, M. T. Mitchison, M. Huber
Phys. Rev. Lett. 131, 160204 (2023)
- Fundamental accuracy-resolution trade-off for timekeeping devices
F. Meier, E. Schwarzhans, P. Erker, M. Huber
Phys. Rev. Lett. 131, 220201 (2023)
- Quantized refrigerator for an atomic cloud
W. Niedenzu, I. Mazets, G. Kurizki, F. Jendrzejewski
Quantum 3, 155 (2019) - Entangling power and quantum circuit complexity
J. Eisert,
Phys. Rev. Lett. 127, 020501 (2021)
Project 2:
Quantum heat engines
- A spin heat engine coupled to a harmonic-oscillator flywheel
D. von Lindenfels, O. Graeb, C. T. Schmiegelow, V. Kaushal, J. Schulz, M. T. Mitchison, J. Goold, F. Schmidt-Kaler, U. G. Poschinger
Phys. Rev. Lett. 123, 080602 (2019) - A scalable realization of local U(1) gauge invariance in cold atomic mixtures
A. Mil, T. V. Zache, A. Hegde, A. Xia, R. P. Bhatt, M. K. Oberthaler, P. Hauke, J. Berges, F. Jendrzejewski
Science 367, 1128 (2020) - Heat rectification via a superconducting artificial atom
J. Senior, A. Gubaydullin, B. Karimi, J. T. Peltonen, J. Ankerhold, J. P. Pekola
Communications Physics (Nature) 3, 40 (2020) - Out-of-equilibrium operation of a quantum heat engine: The cost of thermal coupling control
M. Wiedmann, J. T. Stockburger, J. Ankerhold
New J. Phys. 22, 033007 (2020) - System-environment correlations in qubit initialization and control
J. Tuorila, J. Stockburger, T. Ala-Nissila, J. Ankerhold, M. Moettoenen
Phys. Rev. Research 1, 013004 (2019) - Quantized refrigerator for an atomic cloud
W. Niedenzu, I. Mazets, G. Kurizki, F. Jendrzejewski
Quantum 3, 155 (2019) - Apparent heating due to imperfect measurements
B. Donvil and J. Ankerhold
arXiv:2104.14894 (2021) - Validity of Born Markov master equations in one and two-qubit systems
V. Vadimov, J. Tuorila, J. Stockburger, T. Ala-Nissila, J. Ankerhold, M. Möttönen
Phys. Rev. B 103, 214308 (2021) - Non-Markovian quantum Otto refrigerator
M. Wiedmann, J. Stockburger, J. Ankerhold,
Eur. Phys. J. (Spec. Top.) 230, 851 (2021) - Heat transport through a superconducting artificial atom
M. Xu, J. Stockburger, J. Ankerhold
Phys. Rev. B 103, 104304 (2021) - Quantum thermodynamics with a Josephson-photonics setup
S. Dambach, P. Egetmeyer, B. Kubala, J. Ankerhold
Eur. Phys. J. (Special Topics) 227, 2053 (2019) - Tunneling dynamics between superconducting bound states at the atomic limit
H. Huang, C. Padurariu, J. Senkpiel, R. Drost, A. L. Yeyati, J. C. Cuevas, B. Kubala, J. Ankerhold, and C. R. Ast
Nature Phys. 16, 1227 (2020) - Generating two continuous entangled microwave beams using a DC-biased Josephson junction
A. Peugeot, G.Menard , S. Dambach, M.Westig, B. Kubala, Y. Mukharsky, C. Altimiras , P. Joyez, D. Vion , P. Roche, D. Esteve, P. Milman, J. Leppäkangas, G. Johansson, M. Hofheinz, J. Ankerhold, and F. Portier
Phys. Rev. X 11, 031008 (2021) - Superconducting quantum interference at the atomic scale
S. Karan, H. Huang, C. Padurariu, B. Kubala, G. Morrás, A. Levy Yeyati, J. C. Cuevas, J. Ankerhold, K. Kern, C. R. Ast
arXiv: 2108.02250 (2021) - Minimal model of a quantum heat engine in a bandgap environment
M. Xu, J. T. Stockburger, G. Kurizki, J. Ankerhold
arXiv:2109.12224 (2021) - About the performance of perturbative treatments of the spin-boson dynamics within the hierarchical equations of motion approach
M. Xu, J. Ankerhold
arXiv:2308.02010 (2023)
- A universal framework for quantum dissipation: Minimally extended state space and exact time-local dynamics
M. Xu, V. Vadimov, M. Krug, J. T. Stockburger, J. Ankerhold
arXiv:2307.16790 (2023)
- Taming quantum noise for efficient low temperature simulations of open quantum systems
M. Xu, Y. Yan, Q. Shi, J. Ankerhold, J. T. Stockburger
arXiv:2202.04059 (2023) - Probing coherent quantum thermodynamics using a trapped ion
O. Onishchenko, G. Guarnieri, P. Rosillo-Rodes, D. Pijn, J. Hilder, U. G. Poschinger, M. Perarnau-Llobet, J. Eisert, F. Schmidt-Kaler
arXiv:2207.14325 (2022) - Long-time equilibration can determine transient thermality
K. V. Hovhannisyan, S. Nemati, C. Henkel, J. Anders
PRX Quantum 4, 030321 (2023) - Multipurpose quantum thermodynamic operations
J. Dunlop, F. Cerisola, J. Tabanera-Bravo, J. Anders
arXiv::2306.09088 (2023) - Enhanced entanglement in multi-bath spin-boson models
C. R. Hogg, F. Cerisola, J. D. Cresser, S. A. R. Horsley, J. Anders
arXiv:2306.11036 (2023) - Accounting for quantum effects in atomistic spin dynamics
M. Berritta, S. Scali, F. Cerisola, J. Anders
arXiv:2305.17082 (2023) - Anisotropic signatures in the spin-boson model
F. Hartmann, S. Scali, J. Anders
arXiv:2305.16964 (2023) - Deterministic single ion implantation of rare-earth ions for nanometer resolution colour center generation
K. Groot-Berning, T. Kornher, G. Jacob, F. Stopp, S. T. Dawkins, R. Kolesov, J. Wrachtrup, K. Singer, F. Schmidt-Kaler
Phys. Rev. Lett. 123, 106802 (2019) - Direct control of high magnetic fields for cold atom experiments based on NV centers
A. Hesse, K. Köster, J. Steiner, J. Michl, V. Vorobyov, D. Dasari, J. Wrachtrup, F. Jendrzejewski
arXiv:2003.08101 (2020)
Project 3:
Quantum refrigerators, sensing and the third law
- Characterization of arbitrary-order correlations in quantum baths by weak measurement
P. Wang, C. Chen, X. Peng, J. Wrachtrup, R.-B. Liu
Phys. Rev. Lett. 123, 050603 (2019) - Ultra-sensitive hybrid diamond nanothermometer
C.-F. Liu, W.-H. Leong, K. Xia, X. Feng, A. Finkler, A. Denisenko, J. Wrachtrup, Q. Li, R.-B. Liu
arXiv:1912.12097 - Quantized refrigerator for an atomic cloud
W. Niedenzu, I. Mazets, G. Kurizki, F. Jendrzejewski
Quantum 3, 155 (2019) - Deterministic single ion implantation of rare-earth ions for nanometer resolution colour center generation
K. Groot-Berning, T. Kornher, G. Jacob, F. Stopp, S. T. Dawkins, R. Kolesov, J. Wrachtrup, K. Singer, F. Schmidt-Kaler
Phys. Rev. Lett. 123, 106802 (2019)
- Experimental saturation of the heat-bath algorithmic cooling bound
S. Zaiser, B. Masatth, D. D. Bhaktavatsala Rao, S. Raeisi, J. Wrachtrup
arXiv:1812.06252 (2019)
- Stochastic dynamics of a few sodium atoms in a cold potassium cloud
R. P. Bhatt, J. Kilinc, L. Höcker, F. Jendrzejewski
Sci. Rep. 12, 2422 (2022) - Direct control of high magnetic fields for cold atom experiments based on NV centers
A. Hesse, K. Köster, J. Steiner, J. Michl, V. Vorobyov, D. Dasari, J. Wrachtrup, F. Jendrzejewski
New J. Phys. 23, 023037 (2021) - Spin–phonon interfaces in coupled nanomechanical vantilevers
T. Oeckinghaus, S. A. Momenzadeh, P. Scheiger, T. Shalomayeva, A. Finkler, D. Dasari, R. Stöhr, J. Wrachtrup
Nano Lett. 20, 463 (2020) - Cyclic cooling of quantum systems at the saturation limit
S. Zaiser, C. T. Cheung, S. Yang, D. B. R. Dasari, S. Raeisi, J. Wrachtrup
npj Quant. Inf. 7, 92 (2021) - Anti-Zeno cooling of spin baths by quantum probe measurements
D. Dasari, S. Yang, A. Finkler, G. Kurizki, J. Wrachtrup
arXiv:2108.09826 (2021) - Nonadiabatic control of quantum transport fidelity in dissipative cold media
A. Chakrabarti, I. Mazets, T.-N. Xu, X. Chen, G. Kurizki
arXiv:2109.13647 (2021) - Thermodynamics of a minimal algorithmic cooling refrigerator
R. Soldati, D. B. R. Dasari, J. Wrachtrup, E. Lutz
Phys. Rev. Lett. 129, 030601 (2022) - Nonlinear coherent heat machines
T. Opatrný, Š. Bräuer, A. G. Kofman, A. Misra, N. Meher, O. Firstenberg,
Science Advances 9, eadf1070 (2023) - Sensing of quantum nonlinear noise correlations via thermodynamic variables
N. Meher, T. Opatrný, G. Kurizki
arXiv:2310.10081 (2023)
- Supersensitive phase estimation by thermal light in nonlinear interferometers
N. Meher, E. Poem, T. Opatrný, O. Firstenberg, G. Kurizki
arXiv:2308.13267 (2023)
- Black-hole powered quantum coherent amplifier
A. Misra, P. Chattopadhyay, A. Svidzinsky, M. O. Scully, G. Kurizki
arXiv:2307.04672 (2023)
- Work extraction from single-mode thermal noise by measurements: How important is information?
A. Misra, T. Opatrný, G. Kurizki
arXiv:2201.11567 (2023) - By-passing fluctuation theorems
P. Boes, R. Gallego, N. H. Y. Ng, J. Eisert, H. Wilming
Quantum 4, 231 (2020)
Project 4:
Foundations of quantum thermodynamics
- Efficiency fluctuations of a quantum Otto engine
T. Denzler, E. Lutz
Phys. Rev. Research 2, 032062 (2020) - Thermodynamics of continuous non-Markovian feedback control
M. Debiossac, D. Grass, J. J. Alonso, E. Lutz, N. Kiesel
Nature Comm. 11, 1360 (2020) - Using non-equilibrium thermodynamics to optimize the cooling of a dilute atomic gas
D. Mayer, F. Schmidt, S. Haupt, Q. Bouton, D. Adam, T. Lausch, E. Lutz, A. Widera
arXiv:1901.06188
- Reversing the direction of heat flow using quantum correlations
K. Micadei, J. P. S. Peterson, A. M. Souza, R. S. Sarthour, I. S. Oliveira, G. T. Landi, T. B. Batalhão, R. M. Serra, E. Lutz
Nature Comm. 10, 2456 (2019)
- Quantum response theory for nonequilibrium steady states
M. Konopik, E. Lutz
Phys. Rev. Research 1, 033156 (2019) - Quantum fluctuation theorems beyond two-point measurements
K. Micadei, G. T. Landi, E. Lutz
Phys. Rev. Lett. 124, 090602 (2020) - Heat and work along individual trajectories of a quantum bit
M. Naghiloo, D. Tan, P. M. Harrington, J. J. Alonso, E. Lutz, A. Romito, and K. W. Murch
Phys. Rev. Lett. 124, 110604 (2020) - Fundamental energy cost of finite-time computing
M. Konopik, T. Korten, E. Lutz, H. Linke
Nature Comm. 14, 447 (2023) - Local master equations may fail to describe dissipative critical behavior
M. Konopik and E. Lutz
arXiv:2012.09907 (2020) - Experimental validation of fully quantum fluctuation theorems using dynamic Bayesian networks
K. Micadei, J. P. S. Peterson, A. M. Souza, R. S. Sarthour, I. S. Oliveira, G. T. Landi, R. M. Serra, E. Lutz
Phys. Rev. Lett. 127, 180603 (2021) - An endoreversible quantum heat engine driven by atomic collisions
Q. Bouton, J. Nettersheim, S. Burgardt, D. Adam, E. Lutz, A. Widera
Nature Commun. 12, 2063 (2021) - Efficiency large deviation function of quantum heat engines
T. Denzler, E. Lutz
arXiv:2008.00778 (2020) - Power fluctuations in a finite-time quantum Carnot engines
T. Denzler, E. Lutz
Phys. Rev. Research 3, 032041 (2021) - Shortcut-to-adiabaticity quantum Otto refrigerator
O. Abah, M. Paternostro, E. Lutz
Phys. Rev. Research 2, 023120 (2020) - Single-atom heat engine as a sensitive thermal probe
A. Levy, M. Goeb, B. Deng, K. Singer, E. Torrontegui, D. Wang
arXiv:2005.06858 (2021) - Entangling power and quantum circuit complexity
J. Eisert,
Phys. Rev. Lett. 127, 020501 (2021) - Linear growth of quantum circuit complexity
J. Haferkamp, P. Faist, N. B. T. Kothakonda, J. Eisert, N. Yunger Halpern
Nature Physics 18, 528–532 (2022) - Noise-induced quantum synchronization
F. Schmolke, E. Lutz
Phys. Rev. Lett. 129, 250601 (2022) - Single-atom heat engine as a sensitive thermal probe
A. Levy, M. Göb, B. Deng, K. Singer, E. Torrontegui, D. Wang
arXiv:2005.06858
- Local optimization on pure Gaussian state manifolds
B. Windt, A. Jahn, J. Eisert, L. Hackl
SciPost Phys. 10, 066 (2021) - Thermodynamic uncertainty relation in slowly driven quantum heat engines
H. J. D. Miller, M. H. Mohammady, M. Perarnau-Llobet, G. Guarnieri
Phys. Rev. Lett. 126, 210603 (2021) - Hyperaccurate thermoelectric currents
M. Timpanaro, G. Guarnieri, G. T. Landi
arXiv:2108.05325 (2021) - Nonequilibrium control of thermal and mechanical changes in a levitated system
M. Rademacher, M. Konopik, M. Debiossac, D. Grass, E. Lutz, N. Kiesel
Phys. Rev. Lett 128, 070601 (2022) - The variance of relative surprisal as single-shot quantifier
P. Boes, N. H. Y. Ng, H. Wilming
PRX Quantum 3, 010325 (2022) - Power of a quasi-spin quantum Otto engine at negative effective temperature
J. Nettersheim, S. Burgardt, Q. Bouton, D. Adam, E. Lutz, A. Widera
arXiv:2207.09272 (2022) - Noise-induced quantum synchronization
F. Schmolke, E. Lutz
Phys. Rev. Lett. 129, 250601 (2022) - Resource theory of quantum uncomplexity
N. Yunger Halpern, N. B. T. Kothakonda, J. Haferkamp, A. Munson, J. Eisert, P. Faist
Phys. Rev. A 106, 062417 (2022) - Particle current statistics in driven mesoscale conductors
M. Brenes, G. Guarnieri, A. Purkayastha, J. Eisert, D. Segal, G. Landi
Phys. Rev. B 108, L081119 (2023)
- Efficiency at maximum power of a Carnot quantum information engine
P. Fadler, A. Friedenberger, E. Lutz
arXiv:2301.13560 (2023)
- Generalized Clausius inequalities in a nonequilibrium cold-atom system
D. Mayer, E. Lutz, A. Widera
Communications Physics 6, 61 (2023) - Nonequilibrium thermodynamics of quantum coherence beyond linear response
F. L. S. Rodrigues, E. Lutz
arXiv:2301.13529 (2023) - Convergence to the asymptotic large deviation limit
M. Debiossac, N. Kiesel, E. Lutz
arXiv:2309.06056 (2023)
- Efficiency at maximum power of a Carnot quantum information engine
P. Fadler, A. Friedenberger, E. Lutz
arXiv:2301.13560 (2023) - Nonequilibrium thermodynamics of quantum coherence beyond linear response
F. L. S. Rodrigues, E. Lutz
arXiv:2301.13529 (2023) - Making statistics work: a quantum engine in the BEC-BCS crossover
J. Koch, K. Menon, E. Cuestas, S. Barbosa, E. Lutz, T. Fogarty, T. Busch, A. Widera
Nature 621, 723 (2023) - Amplifying a zeptonewton force with a single-ion nonlinear oscillator
B. Deng, M. Göb, B. A. Stickler, M. Masuhr, K. Singer, D. Wang
arXiv:2305.10241 (2023)
- Finite temperature tensor network algorithm for frustrated two-dimensional quantum materials
P. Schmoll, C. Balz, B, Lake, J. Eisert, A. Kshetrimayum
arXiv:2211.00121 (2023) - Quantum complexity phase transitions in monitored random circuits
R. Suzuki, J. Haferkamp, J. Eisert, P. Faist
arXiv:2305.15475 (2023)
- Generalised linear response theory for the full quantum work statistics
G. Guarnieri, J. Eisert, H. J. D. Miller
arXiv:2307.01885 (2023)
- Deterministic single ion implantation of rare-earth ions for nanometer resolution colour center generation
K. Groot-Berning, T. Kornher, G. Jacob, F. Stopp, S. T. Dawkins, R. Kolesov, J. Wrachtrup, K. Singer, F. Schmidt-Kaler
Phys. Rev. Lett. 123, 106802 (2019)
- Von Neumann entropy from unitarity
P. Boes, J. Eisert, R. Gallego, M. P. Mueller, H. Wilming
Phys. Rev. Lett. 122, 210402 (2019) - The variance of relative surprisal as single-shot quantifier
P. Boes, N. H. Y. Ng, H. Wilming
arXiv:2009.08391 - Macroscopic thermodynamic reversibility in quantum many-body systems
P. Faist, T. Sagawa, K. Kato, H. Nagaoka, F. G. S. L. Brandão
Phys. Rev. Lett. 123, 250601 (2019) - Thermodynamic implementations of quantum processes
P. Faist, M. Berta, F. G. S. L. Brandao
arXiv:1911.05563 - Entanglement-ergodic quantum systems equilibrate exponentially well
H. Wilming, M. Goihl, I. Roth, J. Eisert
Phys. Rev. Lett. 122, 200604 (2019) - By-passing fluctuation theorems
P. Boes, R. Gallego, N. H. Y. Ng, J. Eisert, H. Wilming
Quantum 4, 231 (2020) - The first law of general quantum resource theories
C. Sparaciari, L. del Rio, C. M. Scandolo, P. Faist, J. Oppenheim
Quantum 4, 259 (2020). - Probing coherent quantum thermodynamics using a trapped ion
O. Onishchenko, G. Guarnieri, P. Rosillo-Rodes, D. Pijn, J. Hilder, U. G. Poschinger, M. Perarnau-Llobet, J. Eisert, F. Schmidt-Kaler
arXiv:2207.14325 (2022)