Publications

Notable publications

  • Three qubits can be entangled in two inequivalent ways; W. Dür, G. Vidal, J. I. Cirac; Phys. Rev. A 62, 062314 (2000)
  • Quantum repeaters: the role of imperfect local operations in quantum communication; H.-J. Briegel, W. Dür, J. I. Cirac, P. Zoller; Phys. Rev. Lett. 81, 5932 (1998)
  • Scalable multiparticle entanglement of trapped ions; H. Häffner, W. Hänsel, C. F. Roos, J. Benhelm, D. Chek-al-Kar, M. Chwalla, T. Körber, U. D. Rapol, M. Riebe, P.O. Schmidt, C. Becher, O. Gühne, W. Dür, R. Blatt; Nature 438, 643-646 (2005)
  • Measurement-based quantum computation; H.-J. Briegel, D. E. Browne, W. Dür, R. Raussendorf, M. Van den Nest; Nature Physics 5, 19-26 (2009)
  • Quantum repeaters based on entanglement purification; W. Dür, H.-J. Briegel, J. I. Cirac, P. Zoller; Phys. Rev. A 59, 169 (1999)

 

Below we list all publications and preprints of group members since 2019.

2025

Journal Article

  1. M. F. Mor-Ruiz, J. Wallnöfer, and W. Dür, Imperfect quantum networks with tailored resource states, Quantum 9, 1605 (2025) [arXiv:2403.19778]

Preprint

  1. J. Bate, A. Hamann, M. Canteri, A. Winkler, Z. X. Koong, V. Krutyanskiy, W. Dür, and B. P. Lanyon, Experimental distributed quantum sensing in a noisy environment, e-print: arXiv:2501.08940 [quant-ph] (2025)

  2. M. F. Mor-Ruiz, J. Miguel-Ramiro, J. Wallnöfer, T. Coopmans, and W. Dür, Merging-based quantum repeater, e-print: arXiv:2502.04450  [quant-ph] (2025)

  3. J. Freund, F. B. Basset, T. M. Krieger, A. Laneve, M. Beccaceci, M. B. Rota, Q. Buchinger, S. F. Covre da Silva, S. Stroj, S. Höfling, T. Huber-Loyola, R. Kueng, A. Rastelli, R. Trotta, O. Gühne, Entanglement and purity can help to detect systematic experimental errors, e-print: arXiv:2503.09459 [quant-ph] (2025)

2024

Journal Article

  1. A. Hamann, P. Sekatski, and W. Dür, Optimal distributed multi-parameter estimation in noisy environments, Quantum Sci. Technol. 9, 035005 (2024) [arXiv:2306.01077].
  2. A. Chan, Z. Shi, L. Dellantonio, W. Dür, and C. Muschik, Measurement-Based Infused Circuits for Variational Quantum EigensolversPhys. Rev. Lett. 132, 240601 (2024) [arXiv:2305.19200].
  3. M. F. Mor-Ruiz and W. Dür, Influence of Noise in Entanglement-Based Quantum Networks, IEEE Journal on Selected Areas in Communications 42, 1793-1807 (2024) [arXiv:2305.03759].
  4. F. Riera-Sàbat, P. Sekatski, and W. Dür, Quantum computation with logical gates between hot systemsPhys. Rev. Research 6, 033101 (2024) [arXiv:2311.06588].
  5. J. Freund, A. Pirker, and W. Dür, Flexible quantum data bus for quantum networks, Phys. Rev. Research 6, 033267 (2024) [arXiv:2404:06578].
  6. F. Riera-Sàbat and W. Dür, A modular entanglement-based quantum computer architecture, New J. Phys. 26, 123015 (2024) [arXiv:2406.05735].

Preprint

  1. J. Miguel-Ramiro, A. Pirker, and W. Dür, Improving entanglement purification through coherent superposition of roles, e-print: arXiv:2408:00844 [quant-ph] (2024).
  2. J. Miguel-Ramiro and W. Dür, Graph state fission, e-print: arXiv:2412.00197 [quant-ph] (2024)

  3. A. López-Incera, W. Dür, and S. Heusler, How many lives does Schrödinger’s cat have?, e-print: arXiv:2412.05104 [physics.ed-ph] (2024)

  4. A. Hamann, P. Aigner, P. Sekatski, and W. Dür, Selective and noise-resilient wave estimation with quantum sensor networks, e-print: arXiv:2412.12291 [quant-ph] (2024)

2023

Journal Article  

  1. J. Miguel-Ramiro, Z. Shi, L. Dellantonio, A. Chan, C. Muschik, and W. Dür, Superposed Quantum Error MitigationPhys. Rev. Lett. 131, 230601 (2023) [arXiv:2304.08528].
  2. J. Miguel-Ramiro, Z. Shi, L. Dellantonio, A. Chan, C. Muschik, and W. Dür, Enhancing quantum computation via superposition of quantum gatesPhys. Rev. A 108, 062604 (2023) [arXiv:2304.08529].
  3. F. Riera-Sàbat, J. Miguel-Ramiro, and W. Dür, Quantum repeater for W statesPRX Quantum 4, 040323 (2023), [arXiv:2304.06757].
  4. M. F. Mor-Ruiz, and W. Dür, Noisy stabilizer formalism, Phys. Rev. A 107, 032424 (2023), [arXiv:2212.08677].
  5. F. Riera-Sàbat, P. Sekatski, and W. Dür, A quantum simulator based on locally controlled logical systems, New J. Phys. 25, 023001 (2023), [arXiv:2207.08900v2].
  6. 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].
  7. J. Miguel-Ramiro, A. Pirker, and W. Dür, Optimized quantum networks, Quantum 7, 919 (2023), [arXiv:2107.10275v3].
  8. F. Riera-Sàbat, P. Sekatski, and W. Dür, Remotely controlled entanglement generation, Quantum 7, 904 (2023), [arXiv: 2206.10686v2].
  9. J. Taglieber, C. Wichmann, S. Kapelari, W. Dür, B. Hinger, Identifying language requirements of pre‑scientific writing for learners in science education using a task‑based needs analysis, Pedagogical Linguistics 6

2022

Journal Article 

  1. 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].
  2. A. Hamann, P. Sekatski, and W. Dür, Approximate decoherence free subspaces for distributed sensingQuantum Science and Technology 7, 025003 (2022). [arXiv:2106.13828].
  3. S. Heusler, W. Dür, M. S. Ubben, and A. Hartmann, Aspects of entropy in classical and in quantum physicsJ. Phys. A Math. Theor., Vol. 55, 40 (2022)

2021

Journal Article

  1. J. Miguel-Ramiro, A. Pirker, and W. Dür, Genuine quantum networks with superposed tasks and addressingnpj Quantum Information 7, 135 (2021), [arXiv:2005.00020].
  2. F. Riera-Sàbat, P. Sekatski, A. Pirker, and W. Dür, Entanglement-assisted entanglement purification, Phys. Rev. Lett. 127, 040502 (2021), [arXiv:2011.07078].
  3. 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].
  4. J. Miguel-Ramiro, A. Pirker, and W. Dür, Coherent randomized benchmarking, Phys. Rev. Research 3, 033038 (2021), [arXiv:2010.13810].
  5. 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].
  6. A. Habicher, H. Oberhauser, and W. Dür, Kompetenzorientierung einmal anders – Lernaufgaben für den Unterricht, Plus Lucis 2, S.25 (2021)

2020

Journal Article

  1. A. López-Incera, A. Hartmann, and W. Dür, Encrypt me! A game-based approach to Bell inequalities and quantum cryptography, Eur. J. Phys. 41, 065702 (2020), [arXiv:1910.07845].
  2. J. Wallnöfer, A. A. Melnikov, W. Dür, and H. J. Briegel, Machine Learning for long-distance quantum communication, PRX Quantum 1, 010301, [1904.10797].
  3. S. Wölk, P. Sekatski, and W. Dür, Noisy distributed sensing in the Bayesian regime, Quantum Sci. Technol 5 045003 [arXiv:2003.05341].
  4. P. Sekatski, S. Wölk, and W. Dür, Optimal distributed sensing in noisy environments, Phys. Rev. Research 2, 023052 (2020),[arXiv:1905.06765]. 
  5. J. Miguel-Ramiro and W. Dür, Delocalized information in quantum networks, New J. Phys. 22 043011 (2020), [arXiv:1912.12935].

2019

Journal Article

  1. V. Kuzmin, D. V. Vasilyev, N.Sangouard, W. Dür, and C. A. Muschik, Scalable repeater architectures for multi-party statesnpj Quantum Inf 5, 115 (2019), [arXiv:1905.00335].
  2. 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 ].
  3. 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] .
  4. J. Wallnöfer, A. Pirker, M. Zwerger, and W. Dür, Multipartite state generation in quantum networks with optimal scaling, Scientific Reports 9, 314 (2019), [arXiv:1806.11562].
  5. A. Pirker and W. Dür, A quantum network stack and protocols for reliable entanglement-based networks, New J. Phys. 21 033003, [arXiv:1810.03556].
  6. M. Zwerger, W. Dür, J.-D. Bancal and P. Sekatski, Device-independent detection of genuine multipartite entanglement for all pure statesPhysRevLett.122.060502 [arXiv:1809.02381].
  7. A. López-Incera and W. Dür, Entangle me! A game to demonstrate the principles of quantum mechanics, American Journal of Physics 87, 95 (2019), [arXiv:1901.07587].

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