Veröffentlichungen

2023

Zeitschriftenartikel

1. I. D. Smith, M. Krumm, L. J. Fiderer, H. Poulsen Nautrup, and H. J. Briegel, The Min-Entropy of Classical-Quantum Combs for Measurement-based Applications, Quantum 7, 1206 (2023) [arXiv.2212.00553].
   
2. J. Miguel-Ramiro, Z. Shi, L. Dellantonio, A. Chan, C. Muschik, and W. Dür, Superposed Quantum Error Mitigation, Phys. Rev. Lett. 131, 230601 (2023) [arXiv:2304.08528].
   
3. J. Miguel-Ramiro, Z. Shi, L. Dellantonio, A. Chan, C. Muschik, and W. Dür, Enhancing quantum computation via superposition of quantum gates, Phys. Rev. A 108, 062604 (2023) [arXiv:2304.08529].
   
4. F. Riera-Sàbat, J. Miguel-Ramiro, and W. Dür, Quantum repeater for W states, PRX Quantum 4, 040323 (2023), [arXiv:2304.06757].
   
5. S. Jerbi, A. Cornelissen, M. Ozols, and V. Dunjko, Quantum policy gradient algorithms, 18. Konferenz über die Theorie der Quanteninformatik, Kommunikation und Kryptographie (TQC 2023) [arXiv:2212.09328].
   
6. B. Requena, S. Masó, J. Bertran, M. Lewenstein, C. Manzo, and G. Muñoz-Gil, Inferring pointtwise diffusion properties of single trajectories with deep learning, Biophysikalische Zeitschrift 122, 4360-4369 (2023), [arXiv:2302.00410].
   
7. Y. Li, H. Sukeno, A. Parayil Mana, H. Poulsen Nautrup, and T.-C. Wei, Symmetry-enriched topological order from partially gauging symmetry-protected topologically ordered states assisted by measurements, Phys. Rev. B 108, 115144 (2023), [arXiv:2305.09747].
   
8. L. M. Trenkwalder, A. López-Incera, H. Poulsen Nautrup, F. Flamini, and H. J. Briegel, Automated Gadget Discovery in the quantum domain, Mach. Learn: Sci. Technol. 4 035043 (2023), [arXiv:2212.12743].
   
9. B. Eva, K. Ried, T. Müller, and H. J. Briegel, How a minimal learning agent can infer the existence of unobserved variables in a complex environment, Geist und Maschine 33, 185-219 (2023), [arXiv:1910.06985].
   
10. M. F. Mor-Ruiz, und W. Dür, Noisy stabilizer formalism, Phys. Rev. A 107, 032424 (2023), [arXiv:2212.08677].
    
11. F. Riera-Sàbat, P. Sekatski, and W. Dür, A quantum simulator based on locally controlled logical systems, Neues J. Phys. 25, 023001 (2023), [arXiv:2207.08900v2 ] .
    
12. F. Riera-Sàbat, J. Miguel-Ramiro, and W. Dür, Non-destructive verification of entangled states via fidelity witnessing, Phys. Rev. A 107, 022414 (2023), [arXiv:2209.06849v2].
    
13. B. Requena, G. Muñoz-Gil, M. Lewenstein, V. Dunjko, and J. Tura, Certificates of quantum many-body properties assisted by machine learning, Phys. Rev. Res. 5 (1), 013097 (2023).
    
14. J. Miguel-Ramiro, A. Pirker, and W. Dür, Optimierte Quantennetzwerke, Quantum 7, 919 (2023), [arXiv:2107.10275v3].
    
15. F. Riera-Sàbat, P. Sekatski, and W. Dür, Remotely controlled entanglement generation, Quantum 7, 904 (2023), [arXiv: 2206.10686v2].
    
16. S. Jerbi, L. J. Fiderer, H. Poulsen Nautrup, J. M. Kübler, H. J. Briegel, and V. Dunjko, Quantum machine learning beyond kernel methods, Nat. Commun. 14, 517 (2023), [arXiv:2110.13162].

Vorabdruck

1. H. Poulsen Nautrup und H. J. Briegel, Measurement-based quantum computation from Clifford quantum cellular automata, e-print: arXiv:2312.13185 [quant-ph] (2023).
   
2. G. Muñoz-Gil et al., Quantitative Bewertung von Methoden zur Analyse von Bewegungsänderungen in Einzelteilchenexperimenten, e-print: arXiv:2311.18100 [cond-mat.soft] (2023).
   
3. F. Riera-Sàbat, P. Sekatski, and W. Dür, Quantum computation with logical gates between hot systems, e-print: arXiv:2311.06588 [quant-ph] (2023).
   
4. A. Majumder, M. Krumm, T. Radkohl, H. Poulsen Nautrup, S. Jerbi, H. J. Briegel, Variational measurement-based quantum computation for generative modeling, e-print: arXiv:2310.13524 [quant-ph] (2023).
   
5. L. M. Trenkwalder, E. Scerri, T. E. O'Brien, and V. Dunjko, Compilation of product-formula Hamiltonian simulation via reinforcement learning, e-print: arXiv:2311.04285 [quant-ph] (2023).
   
6. G. Fernández-Fernández, C. Manzo, M. Lewenstein, A. Dauphin, and G. Muñoz-Gil, Learning minimal representations of stochastic processes with variational autoencoders, e-print: arXiv:2307.11608 [cond-mat.soft] (2023).
   
7. A. Chan, Z. Shi, L. Dellantonio, W. Dür, and C. A. Muschik, Hybrid variational quantum eigensolvers: merging computational models, e-print: arXiv:2305.19200 [quant-ph] (2023).
   
8. Y. Li, H. Sukeno, A. Parayil Mana, H. Poulsen Nautrup, and T.-C. Wei, Symmetry-enriched topological order from partially gauging symmetry-protected topologically ordered states assisted by measurements, e-print:
   arXiv:2305.09747[quant-ph] (2023).
9. M. F. Mor-Ruiz, and W. Dür, Influence of noise in entanglement-based quantum networks, e-print: arXiv:2305.03759 [quant-ph] (2023).

2022

Zeitschriftenartikel

1. H. Poulsen Nautrup, T. Metger, R. Iten, S. Jerbi, L. M. Trenkwalder, H. Wilming, H. J. Briegel, and R. Renner, Operationally meaningful representations of physical systems in neural networks, Mach. Learn: Sci. Technol. 3 045025 (2022), [arXiv:2001.00593].
   
2. A. Skolik, S. Jerbi, and V. Dunjko, Quantum agents in the Gym: a variational quantum algorithm for deep Q-learning, Quantum 6, 720 (2022). [arXiv:2103.15084v3].
   
3. A. Cornelissen, Y. Hamoudi, and S. Jerbi, Nahezu optimale Quantenalgorithmen für multivariate Mittelwertschätzung, Proceedings of the 54th Annual ACM SIGACT Symposium on Theory of Computing (S. 33-43) (2022). [arXiv:2111.09787].
   
4. J. Miguel-Ramiro, F. Riera-Sàbat, and W. Dür, Collective operations can exponentially enhance quantum state verification, Phys. Rev. Lett. 129, 190504 (2022). [arXiv: 2201.01782].
   
5. A. Hamann, P. Sekatski, and W. Dür, Approximate decoherence free subspaces for distributed sensing, Quantenwissenschaft und -technologie 7, 025003 (2022). [arXiv:2106.13828 ].
   
6. S. Heusler, W. Dür, M. S. Ubben, und A. Hartmann, Aspekte der Entropie in der klassischen und in der Quantenphysik, J. Phys. A Math. Theor., Vol. 55, 40 (2022).
   
7. G. Muñoz-Gil, C. Romero-Aristizabal, N. Mateos, F. Campelo, L. I de Llobet Cucalon, M. Beato, M. Lewenstein, M. F. Garcia-Parajo, J. A. Torreno-Pina, Stochastic particle unbinding modulates growth dynamics and size of transcription factor condensates in living cells, Proceedings of the National Academy of Sciences 119 (31), e2200667119 (2022).
   
8. A. Hamann, and S. Wölk, Performance analysis of a hybrid agent for quantum-accessible reinforcement learning, New J. Phys. 24, 033044 (2022) [arXiv:2107.14001].
   
9. G. Muñoz-Gil, A. Dauphin, F. A. Beduini, A. Sánchez de Miguel, Citizen Science to Assess Light Pollution with Mobile Phones, Fernerkundung 14 (19), 4976 (2022).
   
10. C. Manzo, G. Muñoz-Gil, G. Volpe, M. A. Garcia-March, M. Lewenstein, R. Metzler, Preface: characterisation of physical processes from anomalous diffusion data, J. Phys. A 56, 010401 (2022).

Vorabdruck

1. A. Dawid, et al., Modern applications of machine learning in quantum sciences, e-print: arXiv:2204.04198 [quant-ph] (2022).
   
2. M. Krumm, P. A. Guérin, T. Zauner, and Č. Brukner, Quantum teleportation of quantum causal structures, e-print: arXiv:2203.00433 [quant-ph] (2022).

2021

Zeitschriftenartikel

1. F. Flamini, Emergence of biased errors in imperfect optical circuits, Phys. Rev. Applied 16, 064038 (2021), [arXiv:2106.06717].
   
2. M. Ostaszewski, L. M. Trenkwalder, W. Masarczyk, E. Scerri, and V. Dunjko, Reinforcement learning for optimization of variational quantum circuit architectures, Fortschritte in neuronalen Informationsverarbeitungssystemen 34 (2021), [arXiv:2103.16089 ].
   
3. S. Jerbi, C. Gyurik, S. C. Marshall, H. J. Briegel, and V. Dunjko, Parametrized quantum policies for reinforcement learning, Fortschritte in neuronalen Informationsverarbeitungssystemen 34 (2021), [arXiv:2103.05577].
   
4. J. Miguel-Ramiro, A. Pirker, and W. Dür, Genuine quantum networks with superposed tasks and addressing, npj Quanteninformation 7, 135 (2021), [arXiv:2005.00020 ].
   
5. A. Hamann, V. Dunjko, and S. Wölk, Quantum-accessible reinforcement learning beyond strictly epochal environments, Quantum Mach. Intell. 3, 22 (2021), [arXiv:2008.01481 ] .
   
6. F. Riera-Sàbat, P. Sekatski, A. Pirker, and W. Dür, Entanglement-assisted entanglement purification, Phys. Rev. Lett. 127, 040502 (2021), [arXiv:2011.07078].
   
7. F. Riera-Sàbat, P. Sekatski, A. Pirker, and W. Dür, Entanglement purification by counting and locating errors with entangling measurements, Phys. Rev. A 104, 012419 (2021), [arXiv:2011.07084].
   
8. J. Miguel-Ramiro, A. Pirker, and W. Dür, Coherent randomized benchmarking, Phys. Rev. Research 3, 033038 (2021), [arXiv:2010.13810].
   
9. R. R. Ferguson, L. Dellantonio, K. Jansen, A. Al Balushi, W. Dür, and C. A. Muschik, A measurement-based variational quantum eigensolver, Phys. Rev. Lett. 126, 220501 (2021),[ arXiv:2010.13940].
   
10. A. López-Incera, M. Nouvian, K. Ried, T. Müller, and H. J. Briegel, Honeybee communication during collective defence is shaped by predation, BMC Biol 19, 106 (2021), [arXiv:2010.07326].
    
11. V. Saggio, B. E. Asenbeck, A. Hamann, T. Strömberg, P. Schiansky, V. Dunjko, N. Friis, N. C. Harris, M. Hochberg, D. Englund, S. Wölk, H. J. Briegel, and P. Walther, Experimental quantum speed-up in reinforcement learning agents, Natur 591, 229 (2021), [arXiv:2103.06294].
    
12. S. Jerbi, L. M. Trenkwalder, H. Poulsen Nautrup, H. J. Briegel, and V. Dunjko, Quantum enhancements for deep reinforcement learning in large spaces, PRX Quantum 2, 010328 (2021), [arXiv:1910.12760].
    
13. A. Erhard, H. Poulsen Nautrup, M. Meth, L. Postler, R. Stricker, M. Ringbauer, P. Schindler, H. J. Briegel, R. Blatt, N. Friis, and T. Monz, Entangling logical qubits with lattice surgery, Natur 589, 220 (2021), [arXiv:2006.03071].

Vorabdruck

1. A. Cornelissen, und S. Jerbi, Quantenalgorithmen für multivariate Monte-Carlo-Schätzungen, e-print: arXiv:2107.03410 [quant-ph] (2021).

2020

Zeitschriftenartikel

1. F. Flamini et al., Validating multi-photon quantum interference with finite data, Quantum Sci. Technol. 5 045005 (2020) [arXiv:1904.12318].
   
2. A. López-Incera, K. Ried, T. Müller, and H. J. Briegel, Development of swarm behavior in artificial learning agents that adapt to different foraging environments, PLoS ONE 15(12): e0243628 (2020),[arXiv:2004.00552].
   
3. W. L. Boyajian, J. Clausen, L. M. Trenkwalder, V. Dunjko, and H. J. Briegel, On the convergence of projective-simulation-based reinforcement learning in Markov decision processes,Quantum Mach. Intell. 2, 13 (2020) , [arXiv:1010.11914].
   
4. A. López-Incera, A. Hartmann, und W. Dür, Encrypt me! Ein spielbasierter Ansatz für Bell-Ungleichungen und Quantenkryptographie, Eur. J. Phys. 41, 065702 (2020),[arXiv:1910.07845 ].
   
5. J. Wallnöfer, A. A. Melnikov, W. Dür, and H. J. Briegel, Machine Learning for long-distance quantum communication, PRX Quantum 1, 010301, [1904.10797].
   
6. S. Wölk, P. Sekatski, and W. Dür, Noisy distributed sensing in the Bayesian regime, Quantum Sci. Technol 5 045003, [arXiv:2003.05341].
   
7. P. Sekatski, S. Wölk, und W. Dür, Optimale verteilte Abtastung in verrauschten Umgebungen, Phys. Rev. Research 2, 023052 (2020),[arXiv:1905.06765].
   
8. J. Miguel-Ramiro und W. Dür, Delokalisierte Information in Quantennetzwerken, New J. Phys. 22 043011 (2020), [arXiv:1912.12935].
   
9. S. Hangl, V. Dunjko, H. J. Briegel, and J. Piater, Skill Learning by Autonomous Robotic Playing Using Active Learning and Exploratory Behavior Composition, Frontiers in Robotics and AI, Band 7, 42 (2020), [arXiv:1706.08560].
   
10. F. Flamini, A. Hamann, S. Jerbi, L. M. Trenkwalder, H. Poulsen Nautrup, and H. J. Briegel, Photonic architecture for reinforcement learning, New J. Phys. 22 045002 (2020), [ arXiv:1907.07503].

2019

Zeitschriftenartikel

1. H. Poulsen Nautrup, N. Delfosse, V. Dunjko, H. J. Briegel, and N. Friis, Optimizing Quantum Error Correction Codes with Reinforcement Learning, Quantum 3, 215 (2019), [arXiv:1812.08451].
   
2. V. Kuzmin, D. V. Vasilyev, N. Sangouard, W. Dür, and C. A. Muschik, Scalable repeater architectures for multi-party states, npj Quantum Inf 5, 115 (2019), [arXiv:1905.00335].
   
3. D. Schmid, K. Ried, and R. W. Spekkens, Why initial system-environment correlations do not imply the failure of complete positivity: a causal perspective, Phys. Rev. A 100, 022112(2019), [arXiv:1806.02381].
   
4. D. T. Stephen, H. Poulsen Nautrup, J. Bermejo-Vega, J. Eisert und R. Raussendorf, Subsystemsymmetrien, zelluläre Quantenautomaten und Berechnungsphasen von Quantenmaterie, Quantum 3, 142 (2019),[ arXiv:1806.08780 ].
   
5. I. Boldin, H. J. Briegel, V. Dunjko, et al., Quantum Computing using MAGIC with Trapped Atomic Ions, Artikel: 10.1364/CLEO_QELS.2019.FTh3A.2, Veröffentlicht in: 2019 Konferenz über Laser und Elektro-Optik (CLEO), , Herausgeber: IEEE.
   
6. R. Raussendorf, C. Okay, D.-S. Wang, D. T. Stephen, und H. Poulsen Nautrup, A computationally universal phase of quantum matter,Phys. Rev. Lett. 122, 090501 (2019), [arXiv:1803.00095].
   
7. K. Ried, T. Müller, and H. J. Briegel, Modelling collective motion based on the principle of agency: General framework and the case of marching locusts, PLOS ONE 14(2): e0212044 (2019), [arXiv: 1712.01334].
   
8. A. Pirker, M. Zwerger, V. Dunjko, H. J. Briegel, and W. Dür, Simple proof of confidentiality for private quantum channels in noisy environments, Quantum Sci. Technol.4(2019)025009, [arXiv:1711.08897 ].
   

9. Yiğit Subaşı, Rolando D. Somma, and Davide Orsucci, Quantum Algorithms for Systems of Linear Equations Inspired by Adiabatic Quantum Computing, Phys. Rev. Lett. 122, 060504 (2019), [arXiv:1805.10549].

10. A. López-Incera, P.Sekatski, and W. Dür, All macroscopic quantum states are fragile and hard to prepare, Quantum 3, 118 (2019), [arXiv:1805.09868] .
    
11. S. Wölk, T. Sriarunothai, G. S Giri, and C. Wunderlich, Distinguishing between statistical and systematic errors in quantum process tomography, New J. Phys. 21 012015 (2019), [arXiv:1808.10336].
    
12. J. Wallnöfer, A. Pirker, M. Zwerger, and W. Dür, Multipartite state generation in quantum networks with optimal scaling, Wissenschaftliche Berichte 9, 314 (2019),[arXiv:1806.11562].
    
13. T. Sriarunothai, S. Wölk, G. S. Giri, N. Friis, V. Dunjko, H. J. Briegel, and C. Wunderlich,Speeding-up the decision making of a learning agent using an ion trap quantum processor, Quantum Sci. Technol. 4 015014 (2019), [arXiv:1709.01366 ].
    
14. S. Wölk, Revealing quantum properties with simple measurements, in Proceedings of the International School of Physics "Enrico Fermi", Kurs 197: Grundlagen der Quantentheorie, eds. E. M. Rasel, W. P. Schleich und S. Wölk, IOS Press (2019).
    
15. A. Pirker und W. Dür, A quantum network stack and protocols for reliable entanglement-based networks, Neues J. Phys. 21 033003, [arXiv:1810.03556].
    
16. M. Zwerger, W. Dür, J.-D. Bancal und P. Sekatski, Device-independent detection of genuine multipartite entanglement for all pure states, PhysRevLett.122.060502 [arXiv:1809.02381].
    
17. A. López-Incera und W. Dür, Entangle me! Ein Spiel zur Demonstration der Prinzipien der Quantenmechanik, American Journal of Physics 87, 95 (2019), [arXiv:1901.07587].

2018

Zeitschriftenartikel

1. S. Altenburg und S. Wölk, Multiparameter-Schätzung: Globale, lokale und sequentielle Strategien, Phys. Scr. 94, 014001 (2019)
2. A. A. Melnikov, A. Makmal, H. J. Briegel, Benchmarking projective simulation in navigation problems, IEEE Access 6, 64639 (2018), [arXiv:1804.08607] .
   
3. D. Orsucci, H. J. Briegel, and V. Dunjko, Faster quantum mixing for slowly evolving sequences of Markov chains, Quantum 2, 105 (2018), [arXiv:1503.01334v4].
4. R. H. Jonsson, K. Ried, E. Martín-Martínez, and A. Kempf, Transmitting qubits through relativistic fields, J. Phys. A: Math. Theor., 51 485301 (2018), [arXiv:1708.04249 ].
   
5. T. M. Mueller und H. J. Briegel, A Stochastic Process Model for Free Agency under Indeterminism, dialectica 72, 219-252 (2018).
   
6. V. Dunjko und H. J. Briegel,Machine learning & artificial intelligence in the quantum domain, Berichte über Fortschritte in der Physik81, 074001 (2018) , [ arXiv:1709.02779].
   
7. J. Miguel-Ramiro, und W. Dür, Effiziente Verschränkungsreinigungsprotokolle für d-Level-Systeme, Phys. Rev. A 98, 042309, (2018), [arXiv:1806.101062].
   
8. A. Pirker, J. Wallnöfer, and W. Dür,Modular architectures for quantum networks, New J. Phys. 20, 053054 (2018) [arXiv:1711.02606].
   
9. A.Streltsov, H. Kampermann, S. Wölk, M. Gessner, und D. Bruß, Maximal Coherence and the Resource Theory of Purity, New J. Phys. 20, 053058 (2018) [arXiv:1612.07570]
   
10. F. Fröwis, P. Sekatski, W. Dür, N. Gisin, and N. Sangouard,Macroscopic quantum states: measures, fragility and implementations, Rev. Mod. Phys. 90, 025004 (2018), [arXiv:1706.06173]
    
11. J. Clausen und H. J. Briegel,Quantum machine learning with glow for episodic tasks and decision games, Phys. Rev. A 97, 022303 (2018) [arXiv:1601.07358].
    
12. M. Zwerger, A. Pirker, V. Dunjko, H. J. Briegel, and W. Dür,Long-range big quantum-data transmission, Phys. Rev. Lett. 120, 030503 (2018) [arXiv:1705.02174].
    
13. A. A. Melnikov, H. Poulsen Nautrup, M. Krenn, V. Dunjko, M. Tiersch, A. Zeilinger, and H. J. Briegel,Active learning machine learns to create new quantum experiments, PNAS 115 (6), 1221-1226 (2018) [arXiv:1706.00868].
    
14. P. Sekatski, B. Yadin, M.-O. Renou, W. Dür, N. Gisin, and F. Fröwis,General measure for macroscopic quantum states beyond "dead and alive",New J. Phys. 20, 013025 (2018), [arXiv:1704.02270].

Vorabdruck

1. H. Yamasaki, A. Pirker, M. Murao, W. Dür, B. Kraus, Multipartite entanglement outperforms bipartite entanglement under limited quantum system sizes, e-print arXiv:1808.00005[quant-ph] (2018).

2017

Zeitschriftenartikel

1. J.-P. W. MacLean, K. Ried, Robert W. Spekkens und Kevin J. Resch, Quantum-coherent mixture of causal relations, Nature Communications 8, 151409 (2017), [arXiv:1606.04523].
   
2. T. Sriarunothai, G. Sh. Giri, S. Wölk, und Ch. Wunderlich,Radio-frequency sideband cooling and sympathetic cooling of trapped ions in a static magnetic field gradient, J. Mod. Opt. 65, 560 (2018) [arXiv:1710.09241].
   
3. V. Dunjko, J. M. Taylor, H. J. Briegel, Advances in quantum reinforcement learning, IEEE International Conference on Systems, Man, and Cybernetics (SMC), S. 282 - 287 (2017).
   
4. M. Skotiniotis, W. Dür, und P. Sekatski,Makroskopische Überlagerungen erfordern enorme Messgeräte, Quantum 1, 34 (2017) [arXiv:1705.07053].
   
5. H. Poulsen Nautrup, N. Friis, und H. J. Briegel, FehlertoleranteSchnittstelle zwischen Quantenspeichern und Quantenprozessoren,Nat. Commun. 8, 1321 (2017) [arXiv:1609.08062].
   
6. A. A. Melnikov, A. Makmal, V. Dunjko, and H. J. Briegel,Projective simulation with generalization,Sci. Rep. 7, 14430 (2017) [arXiv:1504.02247].
   
7. R. Demkowicz-Dobrzański, J. Czajkowski, und P. Sekatski,Adaptive Quantenmetrologie unter allgemeinem Markovschen Rauschen,Phys. Rev. X 7, 041009 (2017) [arXiv:1704.06280].
   
8. P. Sekatski, M. Skotiniotis, J. Kołodyński, and W. Dür,Quantum metrology with full and fast quantum control,Quantum 1, 27 (2017) [arXiv:1603.08944].
   
9. M. Zwerger, B. P. Lanyon, T. E. Northup, C. A. Muschik, W. Dür, and N. Sangouard,Quantum repeaters based on trapped ions with decoherence free subspace encoding,Quantum Sci. Technol. 2, 044001 (2017) [arXiv:1611.07779].
   
10. A. Pirker, V. Dunjko, W. Dür, und H. J. Briegel,Entanglement generation secure against general attacks,New J. Phys. 19, 113012 (2017)[arXiv:1610.01907].
    
11. N. Friis, D. Orsucci, M. Skotiniotis, P. Sekatski, V. Dunjko, H. J. Briegel, und W. Dür,Flexible Ressourcen für Quantenmetrologie,New J. Phys. 19, 063044 (2017) [arXiv:1610.09999].
    
12. A. Pirker, J. Wallnöfer, H. J. Briegel, and W. Dür,Construction of optimal resources for concatenated quantum protocols,Phys. Rev. A 95, 062332 (2017) [arXiv:1612.09444].
    
13. K. Ried, J.-P. W. MacLean, R. W. Spekkens, and K. J. Resch,Quantum to classical transitions in causal relations,Phys. Rev. A 95, 062102 (2017) [arXiv:1707.06131].
    
    
14. W. Dür, R. Lamprecht, und S. Heusler, Auf dem Weg zu einem Quanteninternet, European Journal of Physics 38, 043001(2017)
15. P. Sekatski, M. Skotiniotis, and W. Dür,Improved Sensing with a Single Qubit,Phys. Rev. Lett. 118, 170801 (2017) [arXiv:1608.03778].
    
16. A. Dodel, A. Mayinda, E. Oudot, A. Martin, P. Sekatski, J.-D. Bancal, and N. Sangouard,Proposal for witnessing non-classical light with the human eye,Quantum 1, 7 (2017) [arXiv:1611.08542].
    
17. N. Friis, S. Bulusu, and R. A. Bertlmann,Geometry of two-qubit states with negative conditional entropy,J. Phys. A: Math. Theor. 50, 125301 (2017) [arXiv:1609.04144].
    
18. J. Wallnöfer und W. Dür,Measurement based quantum communication with resource states generated by entanglement purification, Phys. Rev. A 95, 012303 (2017) [arXiv:1609.05754].

Vorabdruck

1. N. Friis und M. Huber,Precision and Work Fluctuations in Gaussian Battery Charging, e-print arXiv:1708.00749 [quant-ph] (2017).

2016

Zeitschriftenartikel

1. W. L. Boyajian, M. Skotiniotis, W. Dür, and B. Kraus,Compressed quantum metrology for the Ising Hamiltonian,Phys. Rev. A 94, 062326 (2016) [arXiv:1608.02620].
   
2. J. Minář, P. Sekatski und N. Sangouard,Bounding quantum-gravity-inspired decoherence using atom interferometry, Phys. Rev. A 94, 062111 (2016) [arXiv:1604.07810].
   
3. E. G. Brown, N. Friis, and M. Huber,Passivität und praktische Arbeitsextraktion mit Gauß-Operationen,New J. Phys. 18, 113028 (2016) [arXiv:1608.04977].
   
4. J. Wallnöfer, M. Zwerger, C. Muschik, N. Sangouard, and W. Dür,Two-dimensional quantum repeaters,Phys. Rev. A 94, 052307 (2016) [arXiv:1604.05352].
   
5. H. J. Briegel,Versatile cluster entangled light,Wissenschaft 354, 416 (2016) .
   
6. V. Dunjko, J. M. Taylor, und H. J. Briegel,Quantum-Enhanced Machine Learning,Phys. Rev. Lett. 117, 130501 (2016) [arXiv:1610.08251 und arXiv:1507.08482].
   
7. P. Sekatski, M. Skotiniotis, und W. Dür,Dynamical decoupling leads to improved scaling in noisy quantum metrology,New J. Phys. 18, 073034 (2016) [arXiv:1512.07476].
   
8. N. Friis,Unlocking fermionic mode entanglement,New J. Phys. 18, 061001 (2016) [Perspektivartikel zu Dasenbrooket al.,New J. Phys. 18, 043036 (2016) ].
   
9. A. Makmal, A. A. Melnikov, V. Dunjko, und H. J. Briegel,Meta-learning within Projective Simulation,IEEE Access 4, 2110 (2016) [arXiv:1602.08017].
   
10. V. Caprara Vivoli, P. Sekatski, and N. Sangouard,What does it take to detect entanglement with the human eye?Optica 3, 473 (2016) [arXiv:1602.01907].
    
11. N. Friis, M. Huber, und M. Perarnau-Llobet,Energetik von Korrelationen in wechselwirkenden Systemen,Phys. Rev. E 93, 042135 (2016) [arXiv:1511.08654].
    
12. D. Orsucci, M. Tiersch, and H. J. Briegel,Estimation of coherent error sources from stabilizer measurements,Phys. Rev. A 93, 042303 (2016) [arXiv:1512.07083].
    
13. S. Barz, V. Dunjko, F. Schlederer, M. Moore, E. Kashefi, and I.A. Walmsley, Enhanced delegated computing using coherence, Phys. Rev. A 93, 032339 (2016) [arXiv:1501.06730].
    
14. M. Ho, A. Lafont, N. Sangouard, and P. Sekatski,Probing wave function collapse models with a classically driven mechanical oscillator,New J. Phys. 18, 033025 (2016) [arXiv:1504.00790].
    
15. M. Zwerger, H. J. Briegel, and W. Dür,Measurement-based Quantum Communication,Appl. Phys. B 122, 50 (2016) [arXiv:1506.00985].
    
16. N. Friis,Vernünftige fermionische Quanteninformationstheorien erfordern Relativität,New J. Phys. 18, 033014 (2016)[arXiv:1502.04476].
    
17. F. Fröwis, P. Sekatski, und W. Dür,Detecting large quantum Fisher information with measurement precision,Phys. Rev. Lett. 116, 090801 (2016) [arXiv:1509.03334].
    
18. A. Makmal, M. Tiersch, C. Ganahl, und H. J. Briegel,Quantum walks on embedded hypercubes: Non-symmetric and non-local cases, Phys. Rev. A 93, 022322 (2016) [arXiv:1510.08388].
    
    
19. R. J. Donaldson, R. J. Collins, K. Kleczkowska, R. Amiri, P. Wallden, V. Dunjko, J. Jeffers, E. Andersson, and G. S. Buller,Experimental demonstration of kilometer-range quantum digital signatures, Phys. Rev. A 93, 012329 (2016) [arXiv:1509.07827].
    
20. V. Dunjko, T. Kapourniotis, and E. Kashefi,Quantum-enhanced Secure Delegated Classical Computing,Quant. Inf. Comput. 16, 61 (2016) [arXiv:1405.4558].

Vorabdrucke

1. V. Dunjko und E. Kashefi,Blind quantum computing with two almost identical states, e-print arXiv:1604.01586 [quant-ph] (2016).
   
2. J. Minář, P. Sekatski, R. Stevenson, and N. Sangouard,Testing unconventional decoherence models with atoms in optical lattices, e-print arXiv:1601.05381[quant-ph] (2016).

2015

Zeitschriftenartikel

1. N. Friis, A. A. Melnikov, G. Kirchmair, and H. J. Briegel,Coherent controlization using superconducting qubits,Sci. Rep. 5, 18036 (2015) [arXiv:1508.00447].
   
2. E. Oudot, P. Sekatski, F. Fröwis, N. Gisin, and N. Sangouard,Two-mode squeezed states as Schrödinger cat-like states, J. Opt. Soc. Am. B 32, 2190 (2015) [arXiv:1410.8421].
   
3. P. Sekatski, M. Skotiniotis, and W. Dür,No-signaling bounds for quantum cloning and metrology,Phys. Rev. A 92, 022355 (2015) [arXiv:1412.3361].
   
4. M. Tiersch, E. J. Ganahl, and H. J. Briegel,Adaptive quantum computation in changing environments using projective simulation,Sci. Rep. 5, 12874 (2015) [arXiv:1407.1535].
   
5. M. Skotiniotis, F. Fröwis, W. Dür, und B. Kraus,Algebraische Metrologie: Pretty good states and bounds,Phys. Rev. A 92, 022323 (2015) [arXiv:1409.2316].
   
6. N. Friis, M. Skotiniotis, I. Fuentes, and W. Dür,Heisenberg scaling in Gaussian quantum metrology,Phys. Rev. A 92, 022106 (2015) [arXiv:1502.07654].
   
7. H. J. Briegel und T. Müller, Achance for attributable agency,Minds Mach. 25, 261 (2015) [philsci-archive:10349].
   
8. M. Skotiniotis, P. Sekatski, and W. Dür,Quantum metrology for the Ising Hamiltonian with transverse magnetic field,New J. Phys. 17, 073032 (2015) [arXiv:1502.06459].
   
9. V. Dunjko und H. J. Briegel,Quantum mixing of Markov chains for special distributions,New J. Phys. 17, 073004 (2015) [arXiv:1502.05511].
   
10. P. Wallden, V. Dunjko, A. Kent, and E. Andersson,Quantum digital signatures with quantum key distribution components,Phys. Rev. A 91, 042304 (2015) [arXiv:1403.5551].
    
11. W. Dür, P. Sekatski, and M. Skotiniotis,Deterministic Superreplication of One-Parameter Unitary Transformations,Phys. Rev. Lett. 114, 120503 (2015) [arXiv:1410.6008].
    
12. D. E. Bruschi, M. Perarnau-Llobet, N. Friis, K. V. Hovhannisyan, und M. Huber,The thermodynamics of creating correlations: Beschränkungen und optimale Protokolle,Phys. Rev. E 91, 032118 (2015) [arXiv:1409.4647].
    
13. V. Caprara Vivoli, P. Sekatski, J.-D. Bancal, C. C. W. Lim, A. Martin, R. T. Thew, H. Zbinden, N. Gisin, and N. Sangouard,Comparing different approaches for generating random numbers device-independently using a photon pair source,New J. Phys. 17, 023023 (2015) [arXiv:1409.8051].
    
14. V. Dunjko, N. Friis, und H. J. Briegel,Quantum-enhanced deliberation of learning agents using trapped ions,New J. Phys. 17, 023006 (2015) [arXiv:1407.2830].
    
15. J. Mautner, A. Makmal, D. Manzano, M. Tiersch, and H. J. Briegel,Projective simulation for classical learning agents: a comprehensive investigation,Neue Gener. Comput. 33, 69 (2015) [arXiv:1305.1578].
    
16. V. Caprara Vivoli, P. Sekatski, J.-D. Bancal, C. C. W. Lim, B. G. Christensen, A. Martin, R. T. Thew, H. Zbinden, N. Gisin, and N. Sangouard,Challenging preconceptions about Bell tests with photon pairs,Phys. Rev. A 91, 012107 (2015) [arXiv:1405.1939].
    

Vorabdrucke

1. T. Kapourniotis, V. Dunjko, and E. Kashefi, On optimising quantum communication in verifiable quantum computing, e-print arXiv:1506.06943 [quant-ph] (2015).

2014

Zeitschriftenartikel

1. H. J. Briegel und S. Popescu, Aperspective on possible manifestations of entanglement in biological systems, inQuanteneffekte in der Biologie , eds. M. Mohseni, Y. Omar, G. S. Engel, M. B. Plenio, Cambridge University Press (2014).
   
2. W. Dür und S. Heusler,Visualisierung des Unsichtbaren: Das Qubit als Schlüssel zur Quantenphysik,Phys. Teach. 52, 489 (2014) .
   
3. A. Makmal, M. Tiersch, V. Dunjko, und S. Wu,Entanglement of π-locally-maximally-entangleablestates and the satisfiability problem,Phys. Rev. A 90, 042308 (2014) [arXiv:1405.7429].
   
4. S. Barz, R. Vasconcelos, C. Greganti, M. Zwerger, W. Dür, H. J. Briegel, und P. Walther,Demonstrating elements of measurement-based quantum error correction,Phys. Rev. A 90, 042302 (2014) [arXiv:1308.5209].
   
5. P. Sekatski, N. Gisin, und N. Sangouard,Wie schwierig ist es, die Quantenhaftigkeit makroskopischer Zustände zu beweisen?Phys. Rev. Lett. 113, 090403 (2014) [arXiv: ].1402.2542
   
6. A. A. Melnikov, A. Makmal, and H. J. Briegel,Projective simulation applied to the grid-world and the mountain-car problem,Artif. Intell. Res. 3 (3), 24 (2014) [arXiv:1405.5459].
   
7. A. Makmal, M. Zhu, D. Manzano, M. Tiersch, and H. J. Briegel,Quantum walks on embedded hypercubes,Phys. Rev. A 90, 022314 (2014) [arXiv:1309.5253].
   
8. J. Clausen, G. G. Guerreschi, M. Tiersch, and H. J. Briegel,Multiple re-encounter approach to radical pair reactions and the role of nonlinear master equations,J. Chem. Phys. 141, 054107 (2014) [arXiv:1310.6194].
   
9. F. Fröwis, M. Skotiniotis, B. Kraus, and W. Dür,Optimal quantum states for frequency estimation,New J. Phys. 16, 083010 (2014) [arXiv:1402.6946].
   
10. M. Skotiniotis, B. Toloui, I. T. Durham, and B. C. Sanders,Quantum Resource Theory for Charge-Parity-Time Inversion,Phys. Rev. A 90, 012326 (2014) [arXiv:1405.2516].
    
11. M. Zwerger, H. J. Briegel, and W. Dür, Robustness of hashing protocols for entanglement purification,Phys. Rev. A 90, 012314 (2014) [arXiv:1405.4207].
    
12. G. Paparo, V. Dunjko, A. Makmal, M. A. Martin-Delgado, and H. J. Briegel,Quantum speed-up for active learning agents,Phys. Rev. X 4, 031002 (2014) [arXiv:1401.4997].
    
13. M. Zwerger, H. J. Briegel, and W. Dür,Hybrid architecture for encoded measurement-based quantum computation,Sci. Rep. 4, 5364 (2014) [arXiv:1308.4561].
    
14. N. Friis, V. Dunjko, W. Dür, and H. J. Briegel,Implementing quantum control for unknown subroutines,Phys. Rev. A 89, 030303(R) (2014) [arXiv:1401.8128].
    
15. B. P. Lanyon, M. Zwerger, P. Jurcevic, C. Hempel, W. Dür, H. J. Briegel, R. Blatt, and C. F. Roos,Experimental Violation of Multipartite Bell Inequalities with Trapped Ions,Phys. Rev. Lett. 112, 100403 (2014) [arXiv:1312.4810].
    
16. P. Sekatski, M. Aspelmeyer, und N. Sangouard,Macroscopic Optomechanics from Displaced Single-Photon Entanglement,Phys. Rev. Lett. 112, 080502 (2014) [arXiv:1401.2357].
    
17. W. Dür, M. Skotiniotis, F. Fröwis, and B. Kraus,Improved quantum metrology using quantum error-correction,Phys. Rev. Lett. 112, 080801 (2014) [arXiv:1310.3750].
    
18. M. Stobińska, F. Töppel, P. Sekatski, and A. Buraczewski,Towards loophole-free Bell inequality test with preselected unsymmetrical singlet states of light,Phys. Rev. A 89, 022119 (2014) [arXiv:1304.7460].
    
19. S. Weinfurtner, G. De las Cuevas, M. A. Martin-Delgado, und H. J. Briegel,Reducing space-time to binary information,J. Phys. A: Math. Theor. 47,095301 (2014) [arXiv:1210.5182].
    
20. M. Van den Nest und W. Dür,Exponentially improved classical and quantum algorithms for three-body Ising models,Phys. Rev. A 89, 012334 (2014) [arXiv:1304.2879].
    
21. P. Sekatski, N. Sangouard, and N. Gisin,The size of quantum superpositions as measured with "classical" detectors,Phys. Rev. A 89, 012116 (2014) [arXiv:1306.0843].
    

Vorabdrucke

1. J. Combes, C. Ferrie, C. Cesare, M. Tiersch, G. J. Milburn, H. J. Briegel, and C. M. Caves,In-situ characterization of quantum devices with error correction, e-print arXiv:1405.5656 [quant-ph] (2014).
   
2. T. Müller und H. J. Briegel,Stochastic libertarianism: How to maintain integrity in action without determinism, Preprint philsci-archive:10223 (2014).

2013

Zeitschriftenartikel

1. S. N. Filippov, A. A. Melnikov, and M. Ziman,Dissociation and annihilation of multipartite entanglement structure in dissipative quantum dynamics,Phys. Rev. A 88, 062328 (2013) [arXiv:1310.4790].
   
2. M. Tiersch, G. G. Guerreschi, J. Clausen, und H. J. Briegel,Approaches to Measuring Entanglement in Chemical Magnetometers,J. Phys. Chem. A 118, 13 (2013) [arXiv:1308.5172].
   
3. W. L. Boyajian, V. Murg, and B. Kraus,Compressed Simulation of evolutions of the XY-model,Phys. Rev. A 88, 052329 (2013) [arXiv:1305.5895].
   
4. B. P. Lanyon, P. Jurcevic, M. Zwerger, C. Hempel, E. A. Martinez, W. Dür, H. J. Briegel, R. Blatt, and C. F. Roos,Measurement-Based Quantum Computation with Trapped Ions,Phys. Rev. Lett. 111, 210501 (2013) [arXiv:1308.5102].
   
5. D. E. Bruschi, N. Friis, I. Fuentes, and S. Weinfurtner,On the robustness of entanglement in analogue gravity systems,New J. Phys. 15, 113016 (2013) [arXiv:1305.3867].
   
6. F. Fröwis, M. van den Nest, and W. Dür,Certifiability criterion for large-scale quantum systems,New J. Phys. 15, 113011 (2013) [arXiv:1306.0370].
   
7. F. Kesting, F. Fröwis, and W. Dür,Effective noise channels for encoded quantum systems,Phys. Rev. A 88, 042305 (2013) [arXiv:1306.1738].
   
8. H. J. Briegel und S. Popescu,Intra-molekulare Kühlung in Enzymen,Proc. R. Soc. A 469, 20110290 (2013) [arXiv:0912.2365].
   
9. M. Skotiniotis, B. Toloui, I. T. Durham, und B. C. Sanders,Quantum framemeness for Charge-Parity-Time inversion symmetry,Phys. Rev. Lett. 111, 020504 (2013) [arXiv:1306.6114].
   
10. M. Zwerger, H. J. Briegel, and W. Dür,Universal and Optimal Error Thresholds for Measurement-Based Entanglement Purification,Phys. Rev. Lett. 110, 260503 (2013) [arXiv:1303.2852].
    
11. G. G. Guerreschi, M. Tiersch, U. Steiner, and H. J. Briegel,Optical switching of radical pair conformation enhances magnetic sensitivity,Chem. Phys. Lett. 572, 106 (2013) [arXiv:1206.1280].
    
12. M. Skotiniotis, W. Dür, and B. Kraus, Efficientquantum communication under collective noise,Quant. Inf. Comp. 13, 0290 (2013) [arXiv:1204.0891].
    
13. D. Manzano,Quantum transport in quantum networks and photosynthetic complexes at the steady state,PLoS ONE 8, e57041 (2013) [arXiv:1206.2524].
    
14. V. Nebendahl und W. Dür,Improved numerical methods for innite spin chains with long-range interactions,Phys. Rev. B 87, 075413 (2013) [arXiv:1205.2674].
    
15. M. Tiersch, F. de Melo, und A. Buchleitner,Universality in open system entanglement dynamics,J. Phys. A: Math. Gen. 46, 085301 (2013) [arXiv:0810.2506].
    
16. C. Song, T. Rohmer, M. Tiersch, J. Zaanen, J. Hughes, and J. Matysik,Solid-State NMR Spectroscopy to Probe Photoactivation in Canonical Phytochromes,Photochemie und Photobiologie 89, 259 (2013) .
    
17. T. Carle, B. Kraus, W. Dür, and J. I. de Vicente,Purification to Locally Maximally Entangleable States,Phys. Rev. A 87, 012328 (2013) [arXiv:1208.2553].
    
18. A. Asadian, D. Manzano, M. Tiersch, and H. J. Briegel,Heat transport through gattices of quantum harmonic oscillators in arbitrary dimensions,Phys. Rev. E 87, 012109 (2013) [arXiv:1204.0904].

2012

Zeitschriftenartikel

1. H. J. Briegel, Über kreative Maschinen und die physikalischen Ursprünge der Freiheit, Sci. Rep. 2, 522 (2012).
   
2. D. Manzano, M. Tiersch, A. Asadian, and H. J. Briegel, Quantum transport efficiency and Fourier's law,Phys. Rev. E 86, 061118 (2012) [arXiv:1112.2839 ].
   
3. D. Manzano,Statistische Maße der Komplexität für Quantensysteme mit kontinuierlichen Variablen,Physica A 391, 6238 (2012) [arXiv:1105.0628].
   
4. F. Fröwis und W. Dür,Are cloned quantum states macroscopic?Phys. Rev. Lett. 109, 170401 (2012) [arXiv:1203.0319].
   
5. F. Fröwis und W. Dür,Measures of macroscopicity for quantum spin systems,New J. Phys. 14, 093039 (2012) [arXiv:1205.3048].
   
6. M. C. Tichy, M. Tiersch, F. Mintert, und A. Buchleitner,Many-particle interference beyond many-boson and many-fermion statistics,New J. Phys. 14, 093015 (2012) [arXiv:1204.5588].
   
7. M. Tiersch und H. J. Briegel,Decoherence in the chemical compass: The role of decoherence for avian magnetoreception,Phil. Trans. R. Soc. A 370, 4517 (2012) [arXiv:1204.4179].
   
8. M. Tiersch, S. Popescu, and H. J. Briegel, Acritical view on transport and entanglement in models of photosynthesis,Phil. Trans. R. Soc. A 370, 3771 (2012) [arXiv:1104.3883].
   
9. M. Zwerger, W. Dür, and H. J. Briegel,Measurement-based quantum repeaters,Phys. Rev. A 85, 062326 (2012) [arXiv:1204.2178].
   
10. G. G. Guerreschi, J. Cai, S. Popescu, and H. J. Briegel,Persistent dynamic entanglement from classical motion: how bio-molecular machines can generate nontrivial quantum states,New J. Phys. 14, 053043 (2012) [arXiv:1111.2126].
    
11. F. Fröwis,Art der Verschränkung, die die Quantenevolution beschleunigt,Phys. Rev. A 85, 052127 (2012) [arXiv:1204.1212].
    
12. F. Fröwisund W. Dür,Stability of encoded macroscopic quantum superpositions,Phys. Rev. A 85, 052329 (2012) [arXiv:1201.2184].
    
13. H. J. Briegel und G. De las Cuevas,Projective simulation for artificial intelligence,Sci. Rep. 2, 400 (2012) [arXiv:1104.3787].
    
14. J. Clausen, G. Bensky, und G. Kurizki,Task-optimized control of open quantum systems,Phys. Rev. A 85, 052105 (2012) [arXiv:1111.2847].
    
15. M. Tiersch, U. Steiner, S. Popescu, und H. J. Briegel,Open Quantum System Approach to the Modeling of Spin Recombination Reactions,J. Phys. Chem. A 116, 4020 (2012) [arXiv:1204.4634].
    
16. T. Moroder, und O. Gittsovich,Calibration robust entanglement detection beyond Bell inequalities,Phys. Rev. A 85, 032301 (2012) [arXiv:1111.5874].