Publications and Preprints
by R.F. Werner


Updated March 2016

Topics

Quantum Information
Statistical Mechanics and Lattice Systems
Quantum Mechanics
Other



Quantum Information
   Bell inequalities and qualitative entanglement theory

J. Kiukas and  R. F. Werner
Maximal violation of Bell inequalities by position measurements.
J. Math. Phys. 51(2010) 072105. [arXiv:0912.3740] [DOI] [MR2681070]
M. Junge, M. Navascues, C. Palazuelos, D. Perez-Garcia, V. B. Scholz, and  R. F. Werner
Connes' embedding problem and Tsirelson's problem.
J. Math. Phys. 52(2011) 012102. [arXiv:1008.1142] [DOI] [MR2790067]
V. B. Scholz and  R. F. Werner
Tsirelson's problem.
[arXiv:0812.4305]
R. F. Werner
Entanglement.
pp. 228-233 in: Encyclopedia of Mathematical Physics, edited by J.-P. Francoise, G. L. Naber, and  T. S. Tsun.
Elsevier, 2006. [DOI]
M. Keyl, D. Schlingemann, and  R. F. Werner
Infinitely entangled states.
Quant. Inform. Comput. 3(2003) 281-306. [arXiv:quant-ph/0212014] [MR2003567]
A. Acin, V. Scarani, and  M. M. Wolf
Bell inequalities and distillability in N-quantum-bit systems.
Phys. Rev. A 66(2002) 042323. [arXiv:quant-ph/0206084] [DOI]
R. F. Werner and  M. M. Wolf
Bell inequalities and entanglement.
Quant. Inform. Comput. 1(2001) 1-25. [arXiv:quant-ph/0107093] [MR1907485]
T. Eggeling and  R. F. Werner
Separability properties of tripartite states with U ⊗U ⊗U symmetry.
Phys. Rev. A 63(2001) 042111. [arXiv:quant-ph/0010096] [DOI] [MR1842421]
R. F. Werner and  M. M. Wolf
All multipartite Bell correlation inequalities for two dichotomic observables per site.
Phys. Rev. A 64(2001) 032112. [arXiv:quant-ph/0102024]
R. F. Werner and  M. M. Wolf
Bound entangled gaussian states.
Phys. Rev. Lett. 86(2001) 3658-3661. [arXiv:quant-ph/0009118] [DOI]
R. F. Werner
Basic open problems in the theory of entanglement.
pp. 395-400 in: Quantum theory and symmetries (Goslar, 1999), edited by H.-D. Doebner.
World Sci. Publishing, River Edge, N. J. 2000. [MR1796078]
R. F. Werner and  M. M. Wolf
Bell's inequalities for states with positive partial transpose.
Phys. Rev. A 61(2000) 062102, 4. [arXiv:quant-ph/9910063] [DOI] [MR1767459]
R. F. Werner
Quantum states with Einstein-Podolsky-Rosen correlations admitting a hidden-variable model.
Phys. Rev. A 40(1989) 4277-4281. [DOI]
R. F. Werner
An application of Bell's inequalities to a quantum state extension problem.
Lett. Math. Phys. 17(1989) 359-363. [DOI] [MR1001093]
R. F. Werner
Bell's inequalities and the reduction of statistical theories.
pp. 419-442 in: Reduction in science, edited by W. Balzer, D. Pearce, and  H.-J. Schmidt.
Reidel, Dordrecht 1984.

Entanglement measures
O. Gühne, M. Reimpell, and  R. F. Werner
Estimating entanglement measures in experiments.
Phys. Rev. Lett. 98(2007) 110502. [arXiv:quant-ph/0607163] [DOI]
R. F. Werner
Entanglement measures.
pp. 233-236 in: Encyclopedia of Mathematical Physics, edited by J.-P. Francoise, G. L. Naber, and  T. S. Tsun.
Elsevier, 2006. [DOI]
K. G. H. Vollbrecht, R. F. Werner, and  M. M. Wolf
Irreversibility of entanglement distillation for a class of symmetric states.
Phys. Rev. A 69(2004) 062304. [arXiv:quant-ph/0301072] [DOI]
M. M. Wolf, G. Giedke, O. Krüger, R. F. Werner, and  J. I. Cirac
Gaussian entanglement of formation.
Phys. Rev. A 69(2004) 052320. [arXiv:quant-ph/0306177] [DOI]
G. Giedke, M. M. Wolf, O. Krüger, R. F. Werner, and  J. I. Cirac
Entanglement of formation for symmetric Gaussian states.
Phys. Rev. Lett. 91(2003) 107901. [arXiv:quant-ph/0304042] [DOI]
K. Audenaert, J. Eisert, M. B. Plenio, and  R. F. Werner
Entanglement properties of the harmonic chain.
Phys. Rev. A 66(2002) 042327. [arXiv:quant-ph/0204143] [DOI]
K. Audenaert, B. De Moor, K. G. H. Vollbrecht, and  R. F. Werner
Asymptotic relative entropy of entanglement for orthogonally invariant states.
Phys. Rev. A 66(2002) 032310. [arXiv:quant-ph/0204143] [DOI]
G. Vidal and  R. F. Werner
Computable measure of entanglement.
Phys. Rev. A 65(2002) 032314. [arXiv:quant-ph/0102117] [DOI]
T. Eggeling, K. G. H. Vollbrecht, R. F. Werner, and  M. M. Wolf
Distillability via protocols respecting the positivity of partial transpose.
Phys. Rev. Lett. 87(2001) 257902. [arXiv:quant-ph/0104095] [DOI]
K. G. H. Vollbrecht and  R. F. Werner
Entanglement measures under symmetry.
Phys. Rev. A 64(2001) 062307. [arXiv:quant-ph/0010095] [DOI]

Error correction and capacities
A. Auer, R. Schwonnek, C. Schoder, L. Dammeier, R. F. Werner, and  G. Burkard
Entanglement distillation using the exchange interaction.
Appl. Phys. B 122(2016) 1-8. [arXiv:1508.00364] [DOI]
D. Kretschmann, D. Schlingemann, and  R. F. Werner
A continuity theorem for Stinespring's dilation.
J. Funct. Anal. 255(2008) 1889-1904. [arXiv:0710.2495] [DOI] [MR2462580]
D. Kretschmann, D. Schlingemann, and  R. F. Werner
The information-disturbance tradeoff and the continuity of Stinespring's representation.
IEEE Trans. Inform. Theory 54(2008) 1708-1717. [arXiv:quant-ph/0605009] [DOI] [MR2450296]
M. Reimpell, R. F. Werner, and  K. Audenaert
Comment on ``Optimum Quantum Error Recovery using Semidefinite Programming''.
[arXiv:quant-ph/0606059]
M. Reimpell and  R. F. Werner
Iterative optimization of quantum error correcting codes.
Phys. Rev. Lett. 94(2005) 080501. [arXiv:quant-ph/0307138] [DOI]
D. Kretschmann and  R. F. Werner
Tema con variazioni: quantum channel capacity.
New J. Phys. 6(2004) 26. [arXiv:quant-ph/0311037] [full text] [DOI]
M. Gregoratti and  R. F. Werner
Quantum lost and found.
J. Mod. Opt. 50(2003) 915-933. International Conference on Quantum Information, Conceptual Foundations, Developments and Perspectives (Oviedo, 2002). [arXiv:quant-ph/0209025] [DOI] [MR1994982]
M. Keyl and  R. F. Werner
How to correct small quantum errors.
pp. 263-286 in: Coherent evolution in noisy environments (Dresden, 2001), edited by A. Buchleitner and  K. Hornberger.
Springer, Berlin 2002. [arXiv:quant-ph/0206086] [MR2012181]
R. F. Werner and  A. S. Holevo
Counterexample to an additivity conjecture for output purity of quantum channels.
J. Math. Phys. 43(2002) 4353-4357. [arXiv:quant-ph/0203003] [DOI] [MR1924444]
D. Schlingemann and  R. F. Werner
Quantum error-correcting codes associated with graphs.
Phys. Rev. A 65(2002) 012308. [arXiv:quant-ph/0012111] [DOI]
G. G. Amosov, A. S. Holevo, and  R. F. Werner
Additivity and multiplicativity problems for quantum communication channels.
pp. 3-10 in: Quantum communication, computing, and measurement 3, edited by P. Tombesi and  O. Hirota.
Kluwer, 2001.
A. S. Holevo and  R. F. Werner
Evaluating capacities of bosonic gaussian channels.
Phys. Rev. A 63(2001) 032312. [arXiv:quant-ph/9912067] [DOI]
G. G. Amosov, A. S. Holevo, and  R. F. Werner
On the additivity hypothesis in quantum information theory.
Problemy Peredachi Informatsii 36(2000) 25-34. [MR1813649]

Other Quantum information tasks
G. Chiribella, G. M. D'Ariano, P. Perinotti, D. M. Schlingemann, and  R. F. Werner
A short impossibility proof of quantum bit commitment.
Phys. Lett. A 377(2013) 1076-1087.
G. M. D'Ariano, D. Kretschmann, D. Schlingemann, and  R. F. Werner
Reexamination of quantum bit commitment: The possible and the impossible.
Phys. Rev. A 76(2007) . [arXiv:quant-ph/0605224] [DOI]
M. Reimpell and  R. F. Werner
A meaner king uses biased bases.
Phys. Rev. A 75(2007) 062334. [arXiv:quant-ph/0612035] [DOI] [MR2328765]
N. J. Cerf, O. Krüger, P. Navez, R. F. Werner, and  M. M. Wolf
Non-gaussian cloning of quantum coherent states is optimal.
Phys. Rev. Lett. 95(2005) 070501. [arXiv:quant-ph/0410058] [DOI]
M. Gregoratti and  R. F. Werner
On quantum error-correction by classical feedback in discrete time.
J. Math. Phys. 45(2004) 2600-2612. [arXiv:quant-ph/0403092] [DOI] [MR2067576]
G. M. D'Ariano, R. D. Gill, M. Keyl, R. F. Werner, B. Kümmerer, and  H. Maassen
The quantum Monty Hall problem.
Quant. Inform. Comput. 2(2002) 355-366. [arXiv:quant-ph/0202120] [MR1929308]
T. Eggeling and  R. F. Werner
Hiding classical data in multipartite quantum states.
Phys. Rev. Lett. 89(2002) 097905. [arXiv:quant-ph/0203004] [DOI]
M. Keyl and  R. F. Werner
Estimating the spectrum of a density operator.
Phys. Rev. A 64(2001) 052311. [arXiv:quant-ph/0102027] [DOI] [MR1878924]
R. F. Werner
All teleportation and dense coding schemes.
J. Phys. A 34(2001) 7081-7094. [arXiv:quant-ph/0003070] [MR1863141]
M. Keyl and  R. F. Werner
The rate of optimal purification procedures.
Ann. Inst. H. Poincaré Phys. Théor. 2(2001) 1-26. [arXiv:quant-ph/9910124] [DOI] [MR1823831]
V. Buzek, M. Hillery, and  R. F. Werner
Universal-NOT gate.
J. Mod. Opt. 47(2000) 211-232. Physics of quantum information. [MR1756849]
V. Buzek, M. Hillery, and  R. F. Werner
Optimal manipulations with qubits: universal-NOT gate.
Phys. Rev. A 60(1999) R2626-R2629. [arXiv:quant-ph/9901053] [DOI] [MR1718519]
M. Keyl and  R. F. Werner
Optimal cloning of pure states, testing single clones.
J. Math. Phys. 40(1999) 3283-3299. [arXiv:quant-ph/9807010] [DOI] [MR1696949]
R. F. Werner
EPR states for von Neumann algebras.
Comment on quant-ph/9910066, not intended for journal publication. [arXiv:quant-ph/9910077]
R. F. Werner
Optimal cloning of pure states.
Phys. Rev. A 58(1998) 1827-1832. [arXiv:quant-ph/9804001] [DOI]

Steering and cryptography
R. F. Werner
Steering, or maybe why Einstein did not go all the way to Bell's argument.
J. Phys. A 47(2014) 424008. [DOI]
T. Gehring, V. Händchen, J. Duhme, F. Furrer, T. Franz, C. Pacher, R. F. Werner, and  R. Schnabel
Implementation of continuous-variable quantum key distribution with composable and one-sided-device-independent security against coherent attacks.
Nature Comm. 6(2015) 8795. [arXiv:1406.6174] [DOI]
V. Händchen, T. Eberle, S. Steinlechner, A. Samblowski, T. Franz, R. F. Werner, and  R. Schnabel
Observation of one-way Einstein-Podolsky-Rosen steering.
Nature Photonics 6(2012) 598-601. [arXiv:1206.4446] [DOI]
F. Furrer, T. Franz, M. Berta, A. Leverrier, V. B. Scholz, M. Tomamichel, and  R. F. Werner
Continuous variable quantum key distribution: Finite-key analysis of composable security against coherent attacks.
Phys. Rev. Lett. 109(2012) 100502. [arXiv:1112.2179] [DOI]
T. Eberle, V. Händchen, J. Duhme, T. Franz, R. F. Werner, and  R. Schnabel
Gaussian entanglement for quantum key distribution from a single-mode squeezing source.
New J. Phys. 15(2013) 053049. [arXiv:1110.3977] [DOI]
T. Eberle, V. Händchen, J. Duhme, T. Franz, R. F. Werner, and  R. Schnabel
Strong Einstein-Podolsky-Rosen entanglement from a single squeezed light source.
Phys. Rev. A 83(2011) 052329. [arXiv:1103.1817] [DOI]
T. Franz, F. Furrer, and  R. F. Werner
Extremal quantum correlations and cryptographic security.
Phys. Rev. Lett. 106(2011) 250502. [arXiv:1010.1131]
A. H. Werner, T. Franz, and  R. F. Werner
Quantum cryptography as a retrodiction problem.
Phys. Rev. Lett. 103(2009) 220504. [arXiv:0909.3375] [DOI]

Statistical Mechanics and Lattice Systems
   Quantum cellular automata

J. Gütschow, V. Nesme, and  R. F. Werner
The fractal structure of cellular automata on abelian groups.
pp. 51-70 in: Proceedings of automata 2010, edited by N. Fatès, J. Kari, and  T. Worsch.
INRIA, 2010. [arXiv:1011.0313] [get]
A. Ahlbrecht, L. S. Georgiev, and  R. F. Werner
Monodromy analysis of the computational power of the Ising topological quantum computer.
pp. 279-288 in: Lie theory and its applications in physics, edited by V. Dobrev.
, 2010. [arXiv:0911.2591] [DOI]
P. Arrighi, V. Nesme, and  R. F. Werner
Quantized neighbourhoods.
[arXiv:0910.4461]
D. Gross, V. Nesme, H. Vogts, and  R. F. Werner
Index theory of one dimensional quantum walks and cellular automata.
Comm. Math. Phys. 310(2012) 419-454. [arXiv:0910.3675] [DOI] [MR2890305]
J. Gütschow, S. Uphoff, R. F. Werner, and  Z. Zimborás
Time asymptotics and entanglement generation of Clifford quantum celluar automata.
J. Math. Phys. 51(2010) 015203. Selected as JMP research highlight in Feb. 2010. Selected for the Virtual Journal of Quantum Information Volume 10, Issue 2 (Feb 2010). [arXiv:0906.3195] [DOI] [MR2605836]
A. Ahlbrecht, L. S. Georgiev, and  R. F. Werner
Implementation of Clifford gates in the Ising-anyon topological quantum computer.
Phys. Rev. A 79(2009) 032311. [arXiv:0812.2338] [full text] [DOI]
D.-M. Schlingemann, H. Vogts, and  R. F. Werner
On the structure of Clifford quantum cellular automata.
J. Math. Phys. 49(2008) 112104, 21. [arXiv:0804.4447] [DOI] [MR2468526]
O. Krüger and  R. F. Werner
Gaussian quantum cellular automata.
pp. 85-99 in: Quantum information with continous variables of atoms and light, edited by N. J. Cerf, G. Leuchs, and  E. S. Polzik.
Imperial College Press, 2007.
D. J. Shepherd, T. Franz, and  R. F. Werner
A universally programmable quantum cellular automaton.
Phys. Rev. Lett. 97(2006) 020502. [arXiv:quant-ph/0512058] [DOI]
D. Kretschmann and  R. F. Werner
Quantum channels with memory.
Phys. Rev. A 72(2005) 062323. [arXiv:quant-ph/0502106] [DOI]
B. Schumacher and  R. F. Werner
Reversible quantum cellular automata.
[arXiv:quant-ph/0405174]
S. Richter and  R. F. Werner
Ergodicity of quantum cellular automata.
J. Statist. Phys. 82(1996) 963-998. [arXiv:cond-mat/9504001] [DOI] [MR1372433]

Quantum Walks
C. Cedzich and  R. F. Werner
Revivals in quantum walks with quasi-periodically time-dependent coin.
Phys. Rev. A 93(2016) 032329. [arXiv:1510.08905] [DOI]
C. Cedzich, F. A. Grünbaum, C. Stahl, L. Velázquez, A. H. Werner, and  R. F. Werner
Bulk-edge correspondence of one-dimensional quantum walks.
To be published in J. Phys. A [arXiv:1502.02592]
A. Alberti, W. Alt, R. F. Werner, and  D. Meschede
Decoherence models for discrete-time quantum walks and their application to neutral atom experiments.
New J. Phys. 16(2014) 123052. [arXiv:1409.6145]
M. Genske, W. Alt, A. Steffen, A. H. Werner, R. F. Werner, D. Meschede, and  A. Alberti
Electric quantum walks with individual atoms.
Phys.Rev.Lett. 110(2013) 190601. [arXiv:1302.2094] [DOI]
C. Cedzich, T. Rybár, A. H. Werner, A. Alberti, M. Genske, and  R. F. Werner
Propagation and spectral properties of quantum walks in electric fields.
Phys. Rev. Lett. 111(2013) 160601. [arXiv:1302.2081] [DOI]
R. Matjeschk, A. Ahlbrecht, M. Enderlein, C. Cedzich, A. H. Werner, M. Keyl, T. Schaetz, and  R. F. Werner
Quantum walks with non-orthogonal position states.
Phys. Rev. Lett. 109(2012) 240503. [arXiv:1206.0220] [DOI]
F. A. Grünbaum, L. Velázquez, A. H. Werner, and  R. F. Werner
Recurrence for discrete time unitary evolutions.
Comm. Math. Phys. 320(2013) 543-569. [arXiv:1202.3903] [DOI] [MR3053772]
A. Ahlbrecht, C. Cedzich, R. Matjeschk, V. B. Scholz, A. H. Werner, and  R. F. Werner
Asymptotic behavior of quantum walks with spatio-temporal coin fluctuations.
Quantum Inf. Process. 11(2012) 1219-1249. [arXiv:1201.4839] [DOI] [MR2979893]
A. Ahlbrecht, A. Alberti, D. Meschede, V. B. Scholz, A. H. Werner, and  R. F. Werner
Molecular binding in interacting quantum walks.
New J. Phys. 14(2012) 073050. [arXiv:1105.1051] [DOI]
A. Ahlbrecht, H. Vogts, A. H. Werner, and  R. F. Werner
Asymptotic evolution of quantum walks with random coin.
J. Math. Phys. 52(2011) 042201. [arXiv:1009.2019] [DOI] [MR2964162]

Finitely correlated states (=matrix product states)
R. F. Werner
Finitely correlated states.
pp. 334-340 in: Encyclopedia of Mathematical Physics, edited by J.-P. Francoise, G. L. Naber, and  T. S. Tsun.
Elsevier, 2006. [DOI]
O. Bratteli, P. E. T. Jørgensen, A. Kishimoto, and  R. F. Werner
Pure states on Od.
J. Operator Theory 43(2000) 97-143. [arXiv:funct-an/9711004] [MR1740897]
M. Fannes, B. Nachtergaele, and  R. F. Werner
Quantum spin chains with quantum group symmetry.
Comm. Math. Phys. 174(1996) 477-507. [arXiv:cond-mat/9504002] [full text] [DOI] [MR1370078]
M. Fannes, B. Nachtergaele, and  R. F. Werner
Finitely correlated pure states.
J. Funct. Anal. 120(1994) 511-534. [MR1266319] [mp-arc/92-132]
R. F. Werner
Finitely correlated pure states.
pp. 193-202 in: On three levels: micro-, meso-, and macro-approaches in physics, edited by M. Fannes, C. Maes, and  A. Verbeure.
Plenum Press, 1994.
M. Fannes, B. Nachtergaele, and  R. F. Werner
Entropy estimates for finitely correlated states.
Ann. Inst. H. Poincaré Phys. Théor. 57(1992) 259-277. [MR1185335]
M. Fannes, B. Nachtergaele, and  R. F. Werner
Abundance of translation invariant pure states on quantum spin chains.
Lett. Math. Phys. 25(1992) 249-258. [DOI] [MR1183875] [mp-arc/92-73]
M. Fannes, B. Nachtergaele, and  R. F. Werner
Finitely correlated states on quantum spin chains.
Comm. Math. Phys. 144(1992) 443-490. [full text] [MR1158756]
M. Fannes, B. Nachtergaele, and  R. F. Werner
Ground states of VBS models on Cayley trees.
J. Statist. Phys. 66(1992) 939-973. [DOI] [MR1151986]
M. Fannes, B. Nachtergaele, and  R. F. Werner
Valence bond states on quantum spin chains as ground states with spectral gap.
J. Phys. A 24(1991) L185-L190. [DOI] [MR1104168]
M. Fannes, B. Nachtergaele, and  R. F. Werner
Construction and study of exact ground states for a class of quantum antiferromagnets.
Rev. Brasil. Fis. 19(1989) 460-474.
M. Fannes, B. Nachtergaele, and  R. F. Werner
Exact antiferromagnetic ground-states of quantum spin chains.
Europhys. Lett. 10(1989) 633-637. [DOI]

1D ground states
M. Keyl, T. Matsui, D. Schlingemann, and  R. F. Werner
On Haag duality for pure states of quantum spin chains.
Rev. Math. Phys. 20(2008) 707-724. [arXiv:math-ph/0703013] [DOI] [MR2433991]
M. Keyl, T. Matsui, D. Schlingemann, and  R. F. Werner
Entanglement, Haag-duality, and type properties of infinite quantum spin chains.
Rev. Math. Phys. 18(2006) 935-970. [arXiv:math-ph/0604071] [DOI] [MR2281418]
C.-T. Gottstein and  R. F. Werner
Ground states of the infinite q-deformed Heisenberg ferromagnet.
[arXiv:cond-mat/9501123]
R. F. Werner
Remarks on a quantum state extension problem.
Lett. Math. Phys. 19(1990) 319-326. [DOI] [MR1051814]

Mean field theory
N. G. Duffield and  R. F. Werner
Local dynamics of mean-field quantum systems.
Helv. Phys. Acta 65(1992) 1016-1054. [MR1200101] [mp-arc/91-75]
N. G. Duffield and  R. F. Werner
Mean-field dynamical semigroups on C*-algebras.
Rev. Math. Phys. 4(1992) 383-424. [DOI] [MR1189117]
R. F. Werner
Large deviations and mean-field quantum systems.
pp. 349-381 in: Quantum probability \& related topics, edited by L. Accardi.
World Sci. Publishing, River Edge, NJ 1992. [MR1186674]
N. G. Duffield and  R. F. Werner
Classical Hamiltonian dynamics for quantum Hamiltonian mean-field limits.
pp. 115-129 in: Stochastics and quantum mechanics (Swansea, 1990), edited by A. Truman and  I. M. Davies.
World Sci. Publishing, River Edge, NJ 1992. [MR1182592]
N. G. Duffield, H. Roos, and  R. F. Werner
Macroscopic limiting dynamics of a class of inhomogeneous mean field quantum systems.
Ann. Inst. H. Poincaré Phys. Théor. 56(1992) 143-186. [MR1155276]
G. A. Raggio and  R. F. Werner
The Gibbs variational principle for inhomogeneous mean-field systems.
Helv. Phys. Acta 64(1991) 633-667. [MR1127778]
G. A. Raggio and  R. F. Werner
Minimizing the relative entropy in a face.
Lett. Math. Phys. 19(1990) 7-14. [DOI] [MR1040405]
G. A. Raggio and  R. F. Werner
Quantum statistical mechanics of general mean field systems.
Helv. Phys. Acta 62(1989) 980-1003. [MR1034151]
G. A. Raggio and  R. F. Werner
The Gibbs variational principle for for general BCS-type models.
Europhys. Lett. 9(1989) 633-638. [DOI]

Other statistical mechanics
M. Fannes and  R. F. Werner
Boundary conditions for quantum lattice systems.
Helv. Phys. Acta 68(1995) 635-657. [arXiv:cond-mat/9504090] [MR1395060]
E. Buffet and  R. F. Werner
A counterexample in coagulation theory.
J. Math. Phys. 32(1991) 2276-2278. [DOI] [MR1123623]
K. Bärwinkel and  R. F. Werner
Bounds to linear transfer and accomodation at the gas-solid interface.
pp. in: Rarefied gas dynamics, edited by O. Belotserkovskii, M. Kogan, S. Kutateladze, and  A. Rebrov.
Plenum, New York 1985.
K. Bärwinkel and  R. F. Werner
The linear boundary condition of kinetic theory. Some results and some open questions.
Rend. Sem. Mat. Univ. Politec. Torino 41(1983) 113-130 (1984). [MR778863]
R. F. Werner
The concept of embeddings in statistical mechanics.
PhD Thesis, Marburg 1982. Excerpts in: G. Ludwig: An Axiomatic basis for quantum mechanics; vol. 2: quantum mechanics and macrosystems, Springer-Verlag, Berlin 1987, X.§3.1 - X.§3.3.
R. F. Werner
Approximate embeddings in statistical mechanics.
pp. 27-39 in: Structure and approximation in physical theories, edited by A. Hartkämper and  H.-J. Schmidt.
Plenum, New York 1981.

Quantum Mechanics
   Uncertainty Relations

R. Schwonnek, D. Reeb, and  R. F. Werner
Measurement uncertainty for finite quantum observables.
[arXiv:1604.00382]
P. Busch, J. Kiukas, and  R. F. Werner
Sharp uncertainty relations for number and angle.
[arXiv:1604.00566]
R. F. Werner
Uncertainty relations for general phase spaces.
Frontiers of Physics 11(2016) 1-10. [arXiv:1601.03843] [DOI]
L. Dammeier, R. Schwonnek, and  R. Werner
Uncertainty relations for angular momentum.
New J. Phys. 17(2015) 093046. [arXiv:1505.00049]
K. Abdelkhalek, R. Schwonnek, H. Maassen, F. Furrer, J. Duhme, P. Raynal, B.-G. Englert, and  R. F. Werner
Optimality of entropic uncertainty relations.
Int. J. Quant. Inf. 13(2015) 1550045. [arXiv:1509.00398] [DOI]
P. Busch, P. Lahti, and  R. F. Werner
Proof of Heisenberg's error-disturbance relation.
Phys. Rev. Lett. 111(2013) 160405. [arXiv:1306.1565] [DOI]
P. Busch, P. Lahti, and  R. F. Werner
Measurement uncertainty relations.
J. Math. Phys 55(2014) 04211. [arXiv:1312.4392] [DOI]
P. Busch, P. Lahti, and  R. F. Werner
Quantum root-mean-square error and measurement uncertainty relations.
Rev. Mod. Phys. 86(2014) 1261-1281. [arXiv:1312.4393] [DOI]
P. Busch, P. Lahti, and  R. F. Werner
Heisenberg uncertainty for qubit measurements.
Phys. Rev. A 89(2013) 012129. [arXiv:1311.0837] [DOI]
P. Busch, P. Lahti, and  R. F. Werner
Comment on 'Experimental test of error-disturbance uncertainty relations by weak measurement'.
[arXiv:1403.0367]
P. Busch, P. Lahti, and  R. F. Werner
Measurement uncertainty: Reply to critics.
[arXiv:1402.3102]
J. Kiukas, A. Ruschhaupt, P. O. Schmidt, and  R. F. Werner
Exact energy-time uncertainty relation for arrival time by absorption.
J. Phys. A 45(2012) 185301. [arXiv:1109.5087] [DOI] [MR2913460]
R. F. Werner
The uncertainty relation for joint measurement of position and momentum.
Quant. Inform. Comput. 4(2004) 546-562. [arXiv:quant-ph/0405184] [MR2124572]

Phase space and classical limit
J. Kiukas, P. Lahti, J. Schultz, and  R. F. Werner
Characterization of informational completeness for covariant phase space observables.
J. Math. Phys. 53(2012) 102103. [arXiv:1204.3188] [DOI] [MR3050559]
R. F. Werner and  M. P. H. Wolff
Classical mechanics as quantum mechanics with infinitesimal hbar.
Phys. Lett. A 202(1995) 155-159. [DOI] [MR1335436] [mp-arc/94-388]
R. F. Werner
The classical limit of quantum theory.
[arXiv:quant-ph/9504016]
T. Bröcker and  R. F. Werner
Mixed states with positive Wigner functions.
J. Math. Phys. 36(1995) 62-75. [DOI] [MR1308628]
R. F. Werner
On the concentration of quantum states in phase space.
pp. 389-399 in: Quantum probability and related topics, vol. IX, edited by L. Accardi.
World Scientific, Singapore 1994. [mp-arc/93-182]
R. F. Werner
Quantum harmonic analysis on phase space.
J. Math. Phys. 25(1984) 1404-1411. [DOI] [MR745753]
R. F. Werner
Physical uniformities on the state space of nonrelativistic quantum mechanics.
Found. Phys. 13(1983) 859-881. [DOI] [MR788064]

Arrival time observables
A. Ruschhaupt and  R. F. Werner
Quantum mechanics of time.
pp. in: The message of quantum science -- attempts towards a synthesis, edited by P. Blanchard and  J. Fröhlich.
Springer, 2015.
J. Kiukas, A. Ruschhaupt, and  R. F. Werner
Full counting statistics of stationary particle beams.
J. Math. Phys. 54(2013) 042109. [arXiv:1009.1109] [DOI]
J. Kiukas, A. Ruschhaupt, and  R. F. Werner
Tunneling times with covariant measurements.
Found. Phys. 39(2009) 829-846. [arXiv:0907.1792] [DOI] [MR2549082]
R. F. Werner
Dilations of symmetric operators shifted by a unitary group.
J. Funct. Anal. 92(1990) 166-176. [MR1064692]
R. F. Werner
Wigner quantisation of arrival time and oscillator phase.
J. Phys. A 21(1988) 4565-4575. [DOI] [MR974703]
R. F. Werner
Arrival time observables in quantum mechanics.
Ann. Inst. H. Poincaré Phys. Théor. 47(1987) 429-449. [MR933685]
R. F. Werner
Screen observables in relativistic and nonrelativistic quantum mechanics.
J. Math. Phys. 27(1986) 793-803. [DOI] [MR825166]

Relativistic quantum mechanics and field theory
R. Verch and  R. F. Werner
Distillability and positivity of partial transposes in general quantum field systems.
Rev. Math. Phys. 17(2005) 545-576. [arXiv:quant-ph/0403089] [DOI] [MR2153773]
S. J. Summers and  R. F. Werner
On Bell's inequalities and algebraic invariants.
Lett. Math. Phys. 33(1995) 321-334. [DOI] [MR1326345]
S. J. Summers and  R. F. Werner
Maximal violation of Bell's inequalities for algebras of observables in tangent spacetime regions.
Ann. Inst. H. Poincaré Phys. Théor. 49(1988) 215-243. [MR984150]
S. J. Summers and  R. F. Werner
Bell's inequalities and quantum field theory. II: Bell's inequalities are maximally violated in the vacuum.
J. Math. Phys. 28(1987) 2448-2456. [DOI] [MR908016]
S. J. Summers and  R. F. Werner
Bell's inequalities and quantum field theory. I: General setting.
J. Math. Phys. 28(1987) 2440-2447. [DOI] [MR908015]
R. F. Werner
Local preparability of states and the split property in quantum field theory.
Lett. Math. Phys. 13(1987) 325-329. [DOI] [MR895295]
S. J. Summers and  R. F. Werner
Maximal violation of Bell's inequalities is generic in quantum field theory.
Comm. Math. Phys. 110(1987) 247-259. [DOI] [MR887998]
S. J. Summers and  R. F. Werner
The vacuum violates Bell's inequalities.
Phys. Lett. A 110(1985) 257-259. [DOI] [MR803854]
H. Neumann and  R. F. Werner
Causality between preparation and registration processes in relativistic quantum theory.
Internat. J. Theoret. Phys. 22(1983) 781-802. [DOI] [MR717643]
H. Gerstberger, H. Neumann, and  R. F. Werner
Makroskopische Kausalität und relativistische Quantenmechanik.
pp. 205-216 in: Grundlagenprobleme der modernen Physik, edited by J. Nitsch, J. Pfarr, and  E.-W. Stachow.
B.I. Wissenschaftsverlag, Mannheim 1981.

Non-standard commutation relations
P. E. T. Jørgensen, L. M. Schmitt, and  R. F. Werner
Positive representations of general commutation relations allowing Wick ordering.
J. Funct. Anal. 134(1995) 33-99. [MR1359923]
P. E. T. Jørgensen and  R. F. Werner
Coherent states of the q-canonical commutation relations.
Comm. Math. Phys. 164(1994) 455-471. [full text] [DOI] [MR1291240]
P. E. T. Jørgensen, L. M. Schmitt, and  R. F. Werner
q-canonical commutation relations and stability of the Cuntz algebra.
Pacific J. Math. 165(1994) 131-151. [full text] [MR1285568] [mp-arc/92-52]
P. E. T. Jørgensen, L. M. Schmitt, and  R. F. Werner
q-relations and stability of C*-isomorphism classes.
pp. 261-271 in: Algebraic methods in operator theory, edited by R. E. Curto and  P. E. T. Jørgensen.
Birkhäuser, Boston 1994. [MR1284951]
R. F. Werner
The free quon gas suffers Gibbs' paradox.
Phys. Rev. D 48(1993) 2929-2934. [DOI] [MR1236665]

Bohmian and Stochastic Mechanics
R. F. Werner
Is an ontological commitment at the quantum level helpful for good physics?.
Talk at the conference ``New Directions in the Foundation of Physics'', Apr. 24, 2015. Slides with additional comments by Shelley Goldstein were posted at the conference site. [get]
R. F. Werner
What Maudlin replied to.
[arXiv:1411.2120]
R. F. Werner
Comment on ‘What Bell did’.
J. Phys. A 47(2014) 424011. [DOI]
R. F. Werner
A generalization of stochastic mechanics and its relation to quantum mechanics.
Phys. Rev. D 34(1986) 463-469. [DOI] [MR848083]

Other basic quantum structures
M. Keyl, J. Kiukas, and  R. F. Werner
Schwartz operators.
To be published in J. Math. Phys. [arXiv:1508.00364]
C. Cedzich, F. A. Grünbaum, L. Velázquez, A. H. Werner, and  R. F. Werner
A quantum dynamical approach to matrix Khrushchev's formulas.
To be published in Comm. Pure Appl. Math. [arXiv:1405.0985]
A. Ahlbrecht, F. Richter, and  R. F. Werner
How long can it take for a quantum channel to forget everything?.
Int. J. Quant. Inf. 10(2012) 1250057. [arXiv:1205.0693] [DOI]
B. Nachtergaele, V. B. Scholz, and  R. F. Werner
Local approximation of observables and commutator bounds.
pp. 143-150 in: Operator methods in mathematical physics, edited by J. Janas, P. Kurasov, and  S. Naboko.
Birkhäuser, 2012. [arXiv:1103.5663] [MR3050163]
Y. Zhang, L. H. Kauffman, and  R. F. Werner
Permutation and its partial transpose.
Int. J. Quant. Inf. 5(2007) 469-507. [arXiv:quant-ph/0606005] [DOI]
F. Buscemi, M. Keyl, G. M. D'Ariano, P. Perinotti, and  R. F. Werner
Clean positive operator valued measures.
J. Math. Phys. 46(2005) 082109. [arXiv:quant-ph/0505095] [DOI] [MR2165832]
T. Eggeling, D. Schlingemann, and  R. F. Werner
Semicausal operations are semilocalizable.
Europhys. Lett. 57(2002) 782-788. [arXiv:quant-ph/0104027] [DOI]
K. G. H. Vollbrecht and  R. F. Werner
Why two qubits are special.
J. Math. Phys. 41(2000) 6772-6782. [arXiv:quant-ph/9910064] [MR1781406]
R. F. Werner
Inequalities expressing the Pauli principle for generalized observables.
pp. 179-196 in: Mathematical methods in statistical mechanics (Leuven, 1988), edited by M. Fannes and  A. Verbeure.
Leuven Univ. Press, Leuven 1989. [MR1060777]

Other
   Introductory and Popular

T. Franz and  R. Werner
Unmögliche Maschinen der Quantenphysik.
Praxis der Naturwissenschaften -- Physik in der Schule 65(2016) 39-43.
J. Duhme, T. Franz, S. Schmidt, and  R. F. Werner
Verschränkung – Schlüssel zur Quantenwelt. Quanteninformationstheorie Teil 1: Grundlagen.
Physik in unserer Zeit 41(2010) 236-242. [DOI]
J. Duhme, T. Franz, S. Schmidt, and  R. F. Werner
Geheime Nachrichten und schnelle Rechner. Quanteninformationstheorie Teil 2: Anwendungen.
Physik in unserer Zeit 41(2010) 236-242. [DOI]
R. F. Werner
Quantenrechner - die neue Generation von Supercomputern?.
pp. 141-168 in: Verschränkte Welt, edited by J. Audretsch.
Wiley-VCH, 2002. Translated into English.
R. F. Werner
Quantum information theory - An invitation.
pp. 14-57 in: Quantum information, edited by G. Alber and  al..
Springer-Verlag, Berlin 2001. [arXiv:quant-ph/0101061] [DOI]

Metascience and debates
R. F. Werner
Why we should not think of PRL and Nature as THE top journals in physics.
Blog of IQOQI. [get]
R. F. Werner
The focus on bibliometrics makes papers less useful.
Nature (World View) 517(2015) 245. [DOI]
P. Zoller, T. Beth, D. Binosi, R. Blatt, H. Briegel, D. Bruss, T. Calarco, J. Cirac, D. Deutsch, J. Eisert, A. Ekert, C. Fabre, N. Gisin, P. Grangiere, M. Grassl, S. Haroche, A. Imamoglu, A. Karlson, J. Kempe, L. Kouwenhoven, S. Kroll, G. Leuchs, M. Lewenstein, D. Loss, N. Lutkenhaus, S. Massar, J. Mooij, M. Plenio, E. Polzik, S. Popescu, G. Rempe, A. Sergienko, D. Suter, J. Twamley, G. Wendin, R. F. Werner, A. Winter, J. Wrachtrup, and  A. Zeilinger
Quantum information processing and communication - Strategic report on current status, visions and goals for research in Europe.
Eur. Phys. J. D 36(2005) {203-228}. [DOI]