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list of citations [ total number = 520 ]

Teiko Heinosaari, Mário Ziman: The Mathematical Language of Quantum theory: From Uncertainty to Entanglemen (Cambridge Univ. Press, 2012) ISBN:9780521195836

1. A. Jamiołkowski, G. Pastuszak, Generalized Shemesh criterion, common invariant subspaces and irreducible completely positive superoperators, Linear and Multilinear Algebra, 1-12 (2014)
2. H. Freytes, G. Sergioli, FUZZY APPROACH FOR TOFFOLI GATE IN QUANTUM COMPUTATION WITH MIXED STATES, REPORTS ON MATHEMATICAL PHYSICS 74, 159-180 (2014)
3. P. Gawron, D. Kurzyk, Ł. Pawela, Decoherence effects in the quantum qubit flip game using Markovian approximation, Quantum Information Processing 13, 665-682 (2014)
4. P. Mandayam, M. D. Srinivas, Disturbance trade-off principle for quantum measurements, Physical Review A 90, 062128 (2014)
5. P. Mandayam, M.D. Srinivas, Measures of disturbance and incompatibility for quantum measurements PHYSICAL REVIEW A 89, 062112 (2014)
6. J.P. Pellonpää, Modules and extremal completely positive maps, Positivity 18, 61-79 (2014)
7. Matthias Kleinmann, Sequences of projective measurements in generalized probabilistic models J. Phys. A: Math. Theor. 47, 455304 (2014)
8. R. Uola, T. Moroder, O. Gühne, Joint measurability of generalized measurements implies classicality, Physical review letters 113, 160403 (2014)
9. J.P. Pellonpää, Complete measurements of quantum observables, Foundations of Physics 44, 71-90 (2014)
10. M.S. Leifer, Is the Quantum State Real? An Extended Review of ψ-ontology Theorems, Quanta 3, 67-155 (2014)
11. J.P. Pellonpää, Completely positive maps on modules, instruments, extremality problems, and applications to physics, arXiv:1202.5905 (2012).
12. R. Furber, B. Jacobs, From kleisli categories to commutative c*-algebras: Probabilistic gelfand duality, Algebra and Coalgebra in Computer Science. Springer Berlin Heidelberg, 141-157 (2013)
13. B. Jacobs, Measurable spaces and their effect logic, Proceedings of the 2013 28th Annual ACM/IEEE Symposium on Logic in Computer Science. IEEE Computer Society, (2013)
14. J.P. Pellonpää, Quantum instruments: II. Measurement theory, Journal of Physics A: Mathematical and Theoretical 46, 025303 (2013)
15. J.P. Pellonpää, Quantum instruments: I. Extreme instruments, Journal of Physics A: Mathematical and Theoretical 46, 25302-25317 (2013)
16. A. Smirne, et al, Role of correlations in the thermalization of quantum systems, New Journal of Physics 14, 113034 (2012)
17. Steffen Wißmann, Antti Karlsson, Elsi-Mari Laine, Jyrki Piilo, and Heinz-Peter Breuer, Optimal state pairs for non-Markovian quantum dynamics, Phys. Rev. A 86, 062108 (2012)
18. J.P. Pellonpaa, Complete quantum measurements break entanglement PHYSICS LETTERS A 376, 3495-3498 (2012)
19. T. Rybár, Quantum Channels with Memory, Acta Physica Slovaca 62, 275-346 (2012)

Teiko Heinosaari, Jussi Schultz, Alessandro Toigo, Mário Ziman: Maximally incompatible quantum observables, Physics Letters A 378, 1695–1699 (2014) [arXiv:1312.3499]

1. E. Haapasalo, Robustness of incompatibility for quantum devices, JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL 48, 255303 (2015)

Sergey N. Filippov, Mário Ziman: Entanglement sensitivity to signal attenuation and amplification, Phys. Rev. A 90, 010301(R) (2014) [arXiv:1405.1754]

1. J. Sperling, W. Vogel, G.S. Agarwal, Balanced homodyne detection with on-off detector systems: Observable nonclassicality criteria, Europhysics Letters 109, 10.1209/0295-5075/109/34001 (2015)

Michal Sedlák, Mário Ziman: Optimal single shot strategies for discrimination of quantum measurements, Phys. Rev. A 90, 052312 (2014) [arXiv:1408.0934]

1. T.Q. Cao, F. Gao, Z.C. Zhang, Y.H. Yang, Q.Y. Wen, Perfect discrimination of projective measurements with the rank of all projectors being one, Quantum Information Processing 14, 2645-2656 (2015)

Martina Miková, Michal Sedlák, Ivan Straka, Marek Mičuda, Mário Ziman, Miroslav Ježek, Miloslav Dušek, Jaromír Fiurášek: Optimal entanglement-assisted discrimination of quantum measurements, Phys. Rev. A 90, 022317 (2014) [arXiv:1408.0940]

1. T.Q. Cao, F. Gao, Z.C. Zhang, Y.H. Yang, Q.Y. Wen, Perfect discrimination of projective measurements with the rank of all projectors being one, Quantum Information Processing 14, 2645-2656 (2015)

Sergey N. Filippov, Mário Ziman: Bipartite entanglement-annihilating maps: necessary and sufficient conditions | pdf | Phys. Rev. A 88, 032316 (2013) [arXiv:1306.6525]

1. M. Ali, O. Guehne, Robustness of multiparticle entanglement: specific entanglement classes and random states, JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS 47, 055503 (2014)
2. U.Marzolino, Entanglement in dissipative dynamics of identical particles, EPL 104, 40004 (2013)
3. M. Huber, M. Perarnau-Llobet, J.I. de Vicente, Entropy vector formalism and the structure of multidimensional entanglement in multipartite systems, PHYSICAL REVIEW A 88, 042328 (2013)

Sergey N. Filippov, Alexey A. Melnikov, Mário Ziman: Dissociation and annihilation of multipartite entanglement structure in dissipative quantum dynamics, Phys. Rev. A 88, 062328 (2013) [arXiv:1310.4790]

1. A. Mazhar, Robustness of Genuine Tripartite Entanglement under Collective Dephasing, CHINESE PHYSICS LETTERS 32, 060302 (2015)
2. L. Aolita, F. de Melo, and L. Davidovich, Open-system dynamics of entanglement:a key issues review, Rep. Prog. Phys. 78, 042001 (2015)
3. M. Ali, Evolution of Genuine Multipartite Entanglement of Specific and Random States Under non-Markovian Noise, OPEN SYSTEMS & INFORMATION DYNAMICS 21, 1450008 (2014)
4. M. Ali, A.R.P Rau, Sudden change in dynamics of genuine multipartite entanglement of cavity-reservoir qubits, PHYSICAL REVIEW A 90, 042330 (2014)
5. M. Hofmann, T. Moroder, O. Guehne, Analytical characterization of the genuine multiparticle negativity, JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL 47, 155301 (2014)
6. M. Ali, O. Guehne, Robustness of multiparticle entanglement: specific entanglement classes and random states, JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS 47, 055503 (2014)
7. M. Ali, J. Huang, Distillability Sudden Birth of Entanglement for Qutrit-Qutrit Systems, Chinese Physics Letters 31, 110301 (2014)

Vladimír Bužek, Peter Rapčan, Jochen Rau, Mário Ziman: Direct estimation of decoherence rates Phys. Rev. A 86, 052109 (2012) [arXiv:1207.3053]

1. Q. Zheng, Y. Yao, Y. Li, Optimal quantum channel estimation of two interacting qubits subject to decoherence, EUROPEAN PHYSICAL JOURNAL D 68, 170 (2014)

Tomas Rybar, Sergey N. Filippov, Mário Ziman, Vladimír Bužek: Simulation of indivisible qubit channels in collision models J. Phys. B: At. Mol. Opt. Phys. 45, 154006 (2012) [arXiv:1202.6315]

1. J. Jin, V. Giovannetti, R. Fazio, F. Sciarrino, P. Mataloni, A. Crespi, R. Osellame, All-optical non-Markovian stroboscopic quantum simulator, PHYSICAL REVIEW A 91, 012122 (2015)
2. F. Caruso, V. Giovannetti, C. Lupo, et al., Quantum channels and memory effects, REVIEWS OF MODERN PHYSICS 86, 1203-1259 (2014)
3. N.K. Bernardes, A.R.R. Carvalho, C.H. Monken, et al., Environmental correlations and Markovian to non-Markovian transitions in collisional models, PHYSICAL REVIEW A 90, 032111 (2014)
4. R. Uzdin, R. Kosloff, The multilevel four-stroke swap engine and its environment, NEW JOURNAL OF PHYSICS 16, 095003 (2014)
5. A. Rivas, S.F. Huelga, M.B. Plenio, Quantum non-Markovianity: characterization, quantification and detection, REPORTS ON PROGRESS IN PHYSICS 77, 094001 (2014)
6. R. Sweke, I. Sinayskiy, F. Petruccione, Simulation of single-qubit open quantum systems, PHYSICAL REVIEW A 90, 022331 (2014)
7. B. Vacchini, General structure of quantum collisional models, INTERNATIONAL JOURNAL OF QUANTUM INFORMATION 12, 1461011 (2014)
8. A.A. Budini, Post-Markovian quantum master equations from classical environment fluctuations, PHYSICAL REVIEW E 89, 012147 (2014)
9. A.A. Budini, Embedding non-Markovian quantum collisional models into bipartite Markovian dynamics, PHYSICAL REVIEW A 88, 032115 (2013)
10. A. Bodor, L. Diosi, Lajos; Z. Kallus, et al., Structural features of non-Markovian open quantum systems using quantum chains, PHYSICAL REVIEW A 87, 052113 (2013)
11. F. Ciccarello, G.M. Palma, V. Giovannetti, Collision-model-based approach to non-Markovian quantum dynamics, PHYSICAL REVIEW A 87, 040103 (2013)
12. F. Ciccarello, V. Giovannetti, A quantum non-Markovian collision model: incoherent swap case, PHYSICA SCRIPTA T153, 014010 (2013)

Sergey N. Filippov, Tomas Rybar, Mário Ziman: Local two-qubit entanglement-annihilating channels, Phys. Rev. A 85, 012303 (2012) [arXiv:1110.3757]

1. A. Shaham, A. Halevy, L. Dovrat, E. Megidish, H.S. Eisenberg, Entanglement dynamics in the presence of controlled unital noise, Scientific Reports 5, 10796 (2015)
2. F. Caruso, V. Giovannetti, C. Lupo, et al., Quantum channels and memory effects, REVIEWS OF MODERN PHYSICS 86, 1203-1259 (2014)
3. M. Ali, Dynamics of genuine multipartite entanglement under local non-Markovian dephasing, PHYSICS LETTERS A 378, 2048-2053 (2014)
4. M. Huber, M. Perarnau-Llobet, J.I. de Vicente, Entropy vector formalism and the structure of multidimensional entanglement in multipartite systems, PHYSICAL REVIEW A 88, 042328 (2013)
5. Y. Guo, J. Hou, Local channels preserving the states without measurement-induced nonlocality, JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL 46, 325301 (2013)
6. A. De Pasquale, V. Giovannetti, Quantifying the noise of a quantum channel by noise addition PHYSICAL REVIEW A 86, 052302 (2012)

Marianna Bonanome, Vladimír Bužek, Mark Hillery, and Mário Ziman: Toward protocols for quantum-ensured privacy and secure voting, Phys. Rev. A 84, 022331 (2011) [arXiv:1108.5090]

1. Multi-party quantum private comparison protocol with n-level entangled states By: Wang, Qing-Le; Sun, Hong-Xiang; Huang, Wei QUANTUM INFORMATION PROCESSING Volume: 13 Issue: 11 Pages: 2375-2389 Published: NOV 2014
2. Quantum anonymous ranking By: Huang, Wei; Wen, Qiao-Yan; Liu, Bin; et al. PHYSICAL REVIEW A Volume: 89 Issue: 3 Article Number: 032325 Published: MAR 14 2014
3. Quantum Private Comparison: A Review By: Liu, Wenjie; Liu, Chao; Wang, Haibin; et al. IETE TECHNICAL REVIEW Volume: 30 Issue: 5 Pages: 439-445 Published: SEP-OCT 2013
4. Quantum Private Comparison Protocol with the Random Rotation By: Zi, Wei; Guo, Fenzhuo; Luo, Yi; et al. INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS Volume: 52 Issue: 9 Pages: 3212-3219 Published: SEP 2013
5. X.Q. Cai, H.F. Niu, Quantum Private Communication with an Anonymous Sender INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS 52, 411-419 (2013)
6. L. Jiang, G. He, D. Nie, et al., Quantum anonymous voting for continuous variables, PHYSICAL REVIEW A 85, 042309 (2012)
7. R.R. Zhou, L. Yang, Quantum election scheme based on anonymous quantum key distribution, CHINESE PHYSICS B 21, 080301 (2012)
8. R.R. Zhou, L. Yang, Quantum election based on distributed scheme, QUANTUM AND NONLINEAR OPTICS II, 8554 (2012)

Lenka Moravčíková, Mário Ziman: Entanglement-annihilating and entanglement-breaking channels, J.Phys.A 43, 275306 (2010) [arXiv:1006.2502]

1. Z.H. Guo, H.X. Cao, S.X. Qu, , Structures of Three Types of Local Quantum Channels Based on Quantum Correlations, FOUNDATIONS OF PHYSICS 45, 355-369 (2015)
2. L. Aolita, F. de Melo, and L. Davidovich, Open-system dynamics of entanglement:a key issues review, Rep. Prog. Phys. 78, 042001 (2015)
3. Quantum channels and memory effects By: Caruso, Filippo; Giovannetti, Vittorio; Lupo, Cosmo; et al. REVIEWS OF MODERN PHYSICS Volume: 86 Issue: 4 Pages: 1203-1259 Published: DEC 10 2014
4. Entropy vector formalism and the structure of multidimensional entanglement in multipartite systems By: Huber, Marcus; Perarnau-Llobet, Marti; de Vicente, Julio I. PHYSICAL REVIEW A Volume: 88 Issue: 4 Article Number: 042328 Published: OCT 21 2013
5. Z.H. Guo, H.X. Cao, Local quantum channels preserving classical correlations, Journal of Physics A 46, 065303 (2013)

Mário Ziman, Michal Sedlák, Single-shot discrimination of quantum unitary processes, J. Mod. Opt. 57, 253 - 259 (2010)

1. D.K. Mishra, Unambiguous discrimination of two squeezed states using probabilistic quantum cloning, OPTICS COMMUNICATIONS 285, 1560-1565 (2012)
2. A.Bisio, M.Dall'Arno, G.M.D'Ariano, Tradeoff between energy and error in the discrimination of quantum-optical devices, PHYSICAL REVIEW A 84, 012310 (2011)

T. Heinosaari, M.A. Jivulescu, D. Reitzner, M.Ziman, Approximating incompatible von Neumann measurements simultaneously, PHYSICAL REVIEW A 82, 032328 (2010)

1. Multiple phase estimation for arbitrary pure states under white noise By: Yao, Yao; Ge, Li; Xiao, Xing; et al. PHYSICAL REVIEW A Volume: 90 Issue: 6 Article Number: 062113 Published: DEC 8 2014
2. G.C. Hegerfeldt, R. Mayato, Discriminating between the von Neumann and Luders reduction rule, PHYSICAL REVIEW A 85, 032116 (2012)

Tomas Rybar, Mário Ziman: Quantum Finite-Depth Memory Channels: Case Study, Phys. Rev. A 80, 042306 (2009) [arXiv:0907.5521]

1. A. Ahlbrecht, F. Richter, R.F. Werner, How long can it take for a quantum channel to forget everything? INTERNATIONAL JOURNAL OF QUANTUM INFORMATION 10, 1250057 (2012)

Mário Ziman, Teiko Heinosaari, Michal Sedlák: Unambiguous comparison of quantum measurements, Phys. Rev. A 80, 052102 (2009) [arXiv:0905.4445]

1. Youbang Zhan, Local Discrimination of Quantum Measurement without Assistance of Classical Information, Journal of Quantum Information Science 5, 71-78 (2015)
2. Pang Shengshi; Wu Shengjun, Comparison of mixed quantum states PHYSICAL REVIEW A 84, 012336 (2011)
3. J,Fiurasek, M.Micuda, Optimal two-copy discrimination of quantum measurements, Phys.Rev.A (2009) [arXiv:0909.2940]

Sedlak Michal ; Ziman Mario, Unambiguous comparison of unitary channels Phys.Rev.A 79, 012303 (2009)

1. J. Kolodynski, R. Demkowicz-Dobrzanski, Efficient tools for quantum metrology with uncorrelated noise, NEW JOURNAL OF PHYSICS 15, 073043 (2013)
2. G. Chiribella, Giulio; A. Toigo, V. Umanita, Normal Completely Positive Maps on the Space of Quantum Operations, OPEN SYSTEMS & INFORMATION DYNAMICS 20, 1350003 (2013)
3. D.K. Mishra, Unambiguous discrimination of two squeezed states using probabilistic quantum cloning, OPTICS COMMUNICATIONS 285, 1560-1565 (2012)
4. Pang Shengshi; Wu Shengjun, Comparison of mixed quantum states, PHYSICAL REVIEW A 84, 012336 (2011)

Teiko Heinosaari, Mario Ziman : Guide to mathematical concepts of quantum theory, Acta Physica Slovaca 58, 487-674 (2009) [arXiv:0810.3536]

1. Quantum non-Markovian behavior at the chaos border By: Garcia-Mata, Ignacio; Pineda, Carlos; Wisniacki, Diego A. JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL Volume: 47 Issue: 11 Article Number: 115301 Published: MAR 21 2014
2. M.G.A. Paris, The modern tools of quantum mechanics A tutorial on quantum states, measurements, and operations, EUROPEAN PHYSICAL JOURNAL-SPECIAL TOPICS 203, 61-86 (2012)
3. Jaroslaw Adam Miszczak,, Generating and using truly random quantum states in Mathematica, Computer Physics Communications 183, Issue 1, pp 118-124 (2012),
4. S.N.Filippov, V.I.Man'ko, Distances between quantum states in the tomographic-probability representation, Physica Scripta T140, 014043 (2010) [arXiv:0911.1414]
5. Petr Hájíček and Jiří Tolar, Survey of an approach to quantum measurements, classical properties and realist interpretation problems, Acta Physica Slovaca 60, No.6, 613-716 (2010)
6. Z.Puchala, J.A. Miszczak, Bound on trace distance based on superfidelity, Phys.Rev.A 79, 024302 (2009)

Michal Sedlák, Mário Ziman, Vladimír Bužek, Mark Hillery : Unambiguous identification of coherent states II: Multiple resources, Phys.Rev.A 79, 062305 (2009) [arXiv:0901.3206]

1. D.K. Mishra, Unambiguous discrimination of two squeezed states using probabilistic quantum cloning, OPTICS COMMUNICATIONS 285, 1560-1565 (2012)
2. G.Sentis, E.Bagan, J.Calsamiglia, R.Munoz-Tapia, Multicopy programmable discrimination of general qubit states PHYSICAL REVIEW A 82, 042312 (2010)
3. C.Wittmann, U.L. Andersen, G.Leuchs, Discrimination of optical coherent states using a photon number resolving detector JOURNAL OF MODERN OPTICS 57, 213-217 Sp. Iss. SI (2010)

Teiko Heinosaari, Daniel Reitzner, Peter Stano, Mário Ziman : Coexistence of quantum operations, J. Phys. A 42, 365302 (2009), [arXiv:0905.4953] ,

1. Z.F.Bai, S.P. Du, Characterization of sum automorphisms and Jordan triple automorphisms of quantum probabilistic maps, JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL 43, 165210 (2010)

Mário Ziman, Incomplete quantum process tomography and principle of maximal entropy, Phys.Rev.A 78, 032118 (2008)

1. S. Weis, Continuity of the Maximum-Entropy Inference, COMMUNICATIONS IN MATHEMATICAL PHYSICS 330, 1263-1292 (2014)
2. C. Sparaciari, S. Olivares, F. Ticozzi, et al., Exact and approximate solutions for the quantum minimum-Kullback-entropy estimation problem, PHYSICAL REVIEW A 89, 042124 (2014)
3. M. Zorzi, F. Ticozzi, A. Ferrante, Minimum Relative Entropy for Quantum Estimation: Feasibility and General Solution, IEEE TRANSACTIONS ON INFORMATION THEORY 60, 357-367 (2014)
4. Y.I. Bogdanov, A.A. Kalinkin, S.P. Kulik, E.V. Moreva, V.A. Shershulin, Quantum polarization transformations in anisotropic dispersive media, New Journal of Physics 15, 035012 (2013)
5. W. Roga, Z. Puchala, L. Rudnicki, K. Zyczkowski, Entropic trade-off relations for quantum operations, Phys. Rev. A 87, 032308 (2013)
6. Y.S. Teo, B.G. Englert, J. Rehacek, Z. Hradil, Adaptive schemes for incomplete quantum process tomography PHYSICAL REVIEW A 84, 062125 (2011)
7. J. Rau, Assessing thermalization and estimating the Hamiltonian with output data only, PHYSICAL REVIEW A 84, 052101 (2011)
8. W.Roga, M.Fannes, K.Zyczkowski, Entropic characterisation of quantum operations, INTERNATIONAL JOURNAL OF QUANTUM INFORMATION 9, 1031-1045 (2011) [arXiv:1101.4105]
9. X.W.Yao, B.R.Zeng, Q.Liu, et al. Subspace quantum process tomography via nuclear magnetic resonance ACTA PHYSICA SINICA 59, pp. 6837-6841 (2010)
10. A.Bisio, G.Chiribella, G.M.D'Ariano, S.Facchini, P.Perinotti, Optimal Quantum Tomography, IEEE JOURNAL OF SELECTED TOPICS IN QUANTUM ELECTRONICS 15, 1646-1660 (2009)
11. S.Watanabe, R.Matsumoto, T.Uyematsu, Tomography increases key rates of quantum-key-distribution protocols, Physical Review A 78, 042316 (2008)

Mário Ziman, Process POVM: A mathematical framework for the description of process tomography experiments. Phys.Rev.A 77, 062112 (2008) [arXiv:0802.3862]

1. A. Bisio, G.M. D'Ariano, P. Perinotti, et al., Optimal processing of reversible quantum channels, PHYSICS LETTERS A 378, 1797-1808 (2014)
2. G. Gutoski, N. Johnston, Process tomography for unitary quantum channels, JOURNAL OF MATHEMATICAL PHYSICS 55, 032201 (2014)
3. A. Jencova, Base norms and discrimination of generalized quantum channels, JOURNAL OF MATHEMATICAL PHYSICS 55, 022201 (2014)
4. A. Jencova, Extremal generalized quantum measurements, LINEAR ALGEBRA AND ITS APPLICATIONS 439, 4070-4079 (2013)
5. G. Chiribella, A. Toigo, V. Umanita, Normal Completely Positive Maps on the Space of Quantum Operations, OPEN SYSTEMS & INFORMATION DYNAMICS 20, 1350003 (2013)
6. A. Jencova, Extremality conditions for generalized channels, JOURNAL OF MATHEMATICAL PHYSICS 53, 122203 (2012)
7. C. Lu, J.X. Chen, R.Y. Duan, Some bounds on the minimum number of queries required for quantum channel perfect discrimination, QUANTUM INFORMATION & COMPUTATION 12, 138-148 (2012)
8. A. Jencova, Generalized channels: Channels for convex subsets of the state space, JOURNAL OF MATHEMATICAL PHYSICS 53, 3676294 (2012)
9. A. Bisio, G. Chiribella, G.M. D'Ariano, P. Perinotti, Quantum networks: general theory and applications ACTA PHYSICA SLOVACA 61, 273-393 (2011)
10. K.J.Zhang, P.Zhu, F.Gao, F.Z.Guo, S.J.Qin, Q.Y.Wen, General description of discriminating quantum operations, CHINESE PHYSICS B 20, 10.1088/1674-1056/20/10/100304 (2011)
11. D'Ariano Giacomo Mauro; Perinotti Paolo; Sedlak Michal, Extremal quantum protocols, JOURNAL OF MATHEMATICAL PHYSICS 52, 082202 (2011)
12. M.Sedlak, Quantum theory of unambiguous measurements, ACTA PHYSICA SLOVACA 59, 653-793 (2009)
13. R.Duan, Y.Feng, M.Ying, The Perfect Distinguishability of Quantum Operations, PHYSICAL REVIEW LETTERS 103, 210501 (2009) [arXiv:0908.0119]
14. G.Chiribella, G.M.D'Ariano, P.Perinotti Theoretical framework for quantum networks Phys.Rev.A 80, 022339 (2009)
15. G.Chiribella, G.M.D'Ariano, P.Perinotti, Optimal covariant quantum networks, QUANTUM COMMUNICATION, MEASUREMENT AND COMPUTING (QCMC) 1110, 47-56 (2009)
16. A. Bisio, G. Chiribella, G. M. D'Ariano, S. Facchini, P. Perinotti, Optimal quantum tomography for states, measurements, and transformations, Physical Review Letters 102, 010404 (2009) [arXiv:0806.1172]
17. Giulio Chiribella, Giacomo Mauro D'Ariano, and Paolo Perinotti, Transforming quantum operations: quantum supermaps, Europhysics Letters 83, 30004 (2008) [arXiv:0804.0180]

Michal Sedlak, Mário Ziman, Vladimír Bužek and Mark Hillery : Unambiguous comparison of ensembles of quantum states, Phys.Rev.A 77,042304 (2008) [arXiv:0712.1616]

1. L.Y. Cheng, H.F. Wang, S. Zhang, K.H. Yeon, Implementation of unambiguous comparison for unknown pure quantum states with cavity-assisted interaction, CHINESE PHYSICS B 22, 050306 (2013)
2. A.J.T. Colin, Programmed discrimination of multiple sets of qbits with added classical information, EUROPEAN PHYSICAL JOURNAL D 66, Vol.7, e2012-20618-3 (2012)
3. D.K. Mishra, Unambiguous discrimination of two squeezed states using probabilistic quantum cloning, OPTICS COMMUNICATIONS 285, 1560-1565 (2012)
4. S.S Pang, S.J. Wu, Z.B. Chen, Nonexistence of a universal quantum machine to examine the precision of unknown quantum states, PHYSICAL REVIEW A 84, 062313 (2011)
5. A.J.T. Colin, S.M. Barnett S. M.; J.Jeffers, Programmed discrimination of qbits with added classical information EUROPEAN PHYSICAL JOURNAL D 63, Pages: 463-472 (2011)
6. Pang Shengshi; Wu Shengjun, Comparison of mixed quantum states, PHYSICAL REVIEW A 84, 012336 (2011)
7. S.S.Pang, S.J.Wu, Unambiguously determining the orthogonality of multiple quantum states, PHYSICAL REVIEW A 82, 042311 (2010)
8. G.Sentis, E.Bagan, J.Calsamiglia, R.Munoz-Tapia, Multicopy programmable discrimination of general qubit states PHYSICAL REVIEW A 82, 042312 (2010)
9. C.S.Hamilton, H.Lavicka, E.Andersson, J. Jeffers, I. Jex, Quantum public key distribution with imperfect device components, Physical Review A 79, 023808 (2009)

Tomas Rybar, Mario Ziman : Repeatable quantum memory channels, Phys. Rev. A 78, 052114 (2008) [arXiv:0808.3851]

1. H. Fan, Y.N. Wang, L. Jing, J.D. Yue, H.D. Shi, Y.L. Zhang, L.Z. Mu, Quantum cloning machines and the applications Physics Reports 544, 241-322; (2014)
2. T.F. Jordan, A.Shaji, Repeatable procedures and maps in open quantum dynamics, Physics Letters A 373, Issue 46, 4219-4221 (2009) [arXiv:0903.4690]

Mário Ziman, Teiko Heinosaari : Discrimination of quantum observables using limited resources, Phys. Rev. A 77, 042321 (2008) [arXiv:0712.3675]

1. Youbang Zhan, Local Discrimination of Quantum Measurement without Assistance of Classical Information, Journal of Quantum Information Science 5, 71-78 (2015)
2. T.Q. Cao, F. Gao, Z.C. Zhang, Y.H. Yang, Q.Y. Wen, Perfect discrimination of projective measurements with the rank of all projectors being one, Quantum Information Processing 14, 2645-2656 (2015)
3. M.Sedlak, Quantum theory of unambiguous measurements, ACTA PHYSICA SLOVACA 59, 653-793 (2009)
4. X.Xu, X.J.Zhou, Phase-Dependent Effects in Stern-Gerlach Experiments CHINESE PHYSICS LETTERS 27, 010309 (2010)
5. J,Fiurasek, M.Micuda, Optimal two-copy discrimination of quantum measurements, Phys.Rev.A (2009) [arXiv:0909.2940]
6. Anthony Laing, Terry Rudolph, Jeremy L. O'Brien, Experimental Quantum Process Discrimination, Phys.Rev.Lett. 102, 160502 (2009) [arXiv:0801.3831]

Michal Sedlak, Mário Ziman, Ondrej Pribyla, Vladimír Bužek and Mark Hillery : Unambiguous identification of coherent states: Searching a quantum database. Phys.Rev.A 76, 022326 (2007) [arXiv:0706.1892]

1. R.J. Donaldson, R.J. Collins, E. Eleftheriadou, S.M. Barnett, J. Jeffers, G.S. Buller, Experimental Implementation of a Quantum Optical State Comparison Amplifier, PHYSICAL REVIEW LETTERS 114, 120505 (2015)
2. F.E. Becerra, J. Fan, A. Migdall, Implementation of generalized quantum measurements for unambiguous discrimination of multiple non-orthogonal coherent states, NATURE COMMUNICATIONS 4, 2028 (2013)
3. D.K. Mishra, Unambiguous discrimination of two squeezed states using probabilistic quantum cloning OPTICS COMMUNICATIONS 285, 1560-1565 (2012)
4. F.E. Becerra, A. Migdall, Adaptive measurements in nonorthogonal state discrimination, QUANTUM THEORY: RECONSIDERATION OF FOUNDATIONS 6, 61-66 (2012)
5. F.E. Becerra, J. Fan, G. Baumgartner, S. Polyakov, J. Goldhar, J.T. Kosloski, A. Migdall, State Discrimination Signal Nulling Receivers, Proceedings of SPIE (Edited by R.E. Meyers, Y. Shih, K.S. Deacon): QUANTUM COMMUNICATIONS AND QUANTUM IMAGING IX (2011)
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10. Michal Mičuda, Miroslav Ježek, Miloslav Dušek, and Jaromír Fiurášek, Experimental realization of a programmable quantum gate, Phys. Rev. A 78, 062311 (2008)
11. B.He, J.A.Bergou, Coherent-states engineering with linear optics: Possible and impossible tasks, Phys.Rev.A 77, 053818 (2008)
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M.Ziman, M.Plesch, V.Buzek: Reconstruction of superpoperators from incomplete data, Found. Phys. 36, 127-156 (2007) [quant-ph/0405088]

1. S.Watanabe, R.Matsumoto, T.Uyematsu, Tomography increases key rates of quantum-key-distribution protocols PHYSICAL REVIEW A 78, 042316 (2008)
2. E.R.Livine, D.R.Terno, Quantum causal histories in the light of quantum information, Phys.Rev.D 75, 084001 (2007)
3. M.Howard, J.Twamley, C.Wittmann, T.Gaebel, F.Jelezko, J.Wratchup: Quantum process tomography of a single solid state qubit, [Los Alamas e-print arXiv quant-ph/0601167]
4. J.H.Cole, S.G.Schirmer, A.D.Greentree, C.J.Welard, D.K.L.Oi, C.Lloyd, Identifying and experimental two-state Hamiltonian to arbitrary accuracy, Phys.Rev.A 71, 062312 (2005)

Jan Bouda, Mário Ziman: Optimality of quantum private channels, J. Phys. A: Math. Theor. 40 (2007) 5415-5426

1. A.Church, D.W.Kribs, R.Pereira, S.Plosker, S, Private quantum channels, conditional expectations, and trace vectors, QUANTUM INFORMATION & COMPUTATION 11, 774-783 (2011)

Mário Ziman, Vladimír Bužek: Entanglement measures: state ordering vs local operations Quantum Communication and Security (edited by M.Zukowski et al.), 196--204 (IOS Press, 2007) [arXiv:0707.4401]

1. A. Shaham, A. Halevy, L. Dovrat, E. Megidish, H.S. Eisenberg, Entanglement dynamics in the presence of controlled unital noise, Scientific Reports 5, 10796 (2015)

D.McHugh, M.Ziman, V.Buzek, Entanglement, purity, and energy: Two qubits versus two modes Phys.Rev.A 74, 0423903 (2006) [quant-ph/0607012]

1. Entanglement dynamics of two-mode Gaussian systems in a two-reservoir model By: Isar, Aurelian PHYSICA SCRIPTA Volume: T160 Article Number: 014019 Published: APR 2014
2. Geometry in the Entanglement Dynamics of the Double Jaynes-Cummings Model By: Vieira, A. R.; de Oliveira Junior, J. G. G.; Peixoto de Faria, J. G.; et al. BRAZILIAN JOURNAL OF PHYSICS Volume: 44 Issue: 1 Pages: 19-29 Published: FEB 2014
3. ZERO FIELD ENTANGLEMENT IN DIPOLAR COUPLING SPIN SYSTEM AT NEGATIVE TEMPERATURE By: Furman, Gregory B.; Meerovich, Victor M.; Sokolovsky, Vladimir L. INTERNATIONAL JOURNAL OF QUANTUM INFORMATION Volume: 11 Issue: 5 Article Number: 1350050 Published: AUG 2013
4. A.M. Gavrilik, Y.A. Mishchenko, Energy dependence of the entanglement entropy of composite boson (quasiboson) systems, Journal of Physics A 46, 145301 (2013)
5. A. Isar, Quantum correlations of two-mode Gaussian systems in a thermal environment, PHYSICA SCRIPTA T153, 014035 (2013)
6. A. Isar, Renyi-2 quantum correlations of two-mode Gaussian systems in a thermal environment, Physica Scripta 87, 038108 (2013)
7. R. Namiki, Photonic families of non-Gaussian entangled states and entanglement criteria for continuous-variable systems PHYSICAL REVIEW A 85, 062307 (2012)
8. A. Lulli, M. Bina, M.G. Genoni, Robustness of tripartite entanglement transfer from bosonic modes to localized qubits, EUROPEAN PHYSICAL JOURNAL-SPECIAL TOPICS 203, 25-47 (2012)
9. A. Isar, Evolution of continuous variable correlations in open quantum systems, ROMANIAN JOURNAL OF PHYSICS 57, 262-274 (2012)
10. A.Isar, Continuous variable entanglement in two-mode open quantum systems, OPTICS AND SPECTROSCOPY 111, 558-564 (2011)
11. A.Isar, Quantum Entanglement and Quantum Discord of Two-Mode Gaussian States in a Thermal Environment, OPEN SYSTEMS & INFORMATION DYNAMICS 18, 175-190 (2011)
12. X.W.Hou, M.F.Wan, Z.Q.Ma, Dynamical correlations of negativity and entropy for pure and mixed states in two coupled quartic oscillators, EUROPEAN PHYSICAL JOURNAL D 62, 279-288 (2011)
13. E.Solano-Carrillo, R.Franco, J.Silva-Valencia, Entanglement and quantum phase transition in a mixed-spin Heisenberg chain with single-ion anisotropy, PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS 390, 2208-2214 (2011)
14. A.Isar, Continuous variable entanglement in a thermal environment, ROMANIAN JOURNAL OF PHYSICS 55 (9-10): 995-1005 (2010)
15. A.Isar, Entanglement in two-mode continuous variable open quantum systems PHYSICA SCRIPTA T143, 014012 (2011)
16. E.Solano-Carrillo, R.Franco, J.Silva-Valencia, Pairwise entanglement and critical behavior of an anisotropic ferrimagnetic spin chain, PHYSICS LETTERS A 375 (6): 1032-1035 (2011)
17. N.Lo Gullo, S.McEndoo, T.Busch, M.Paternostro, Vortex entanglement in Bose-Einstein condensates coupled to Laguerre-Gauss beams PHYSICAL REVIEW A 81, 053625 (2010)
18. J.Helm, W.T.Strunz, Decoherence and entanglement dynamics in fluctuating fields, Phys.Rev.A 81, 042314 (2010)
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20. A.Isar, Time evolution of entanglement in open quantum systems, JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS 12, 68-73 (2010)
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22. A.Isar, Entanglement dynamics in open systems. ROMANIAN REPORTS IN PHYSICS 61, 627-640 (2009)
23. R. Horodecki, P. Horodecki, M. Horodecki, K. Horodecki, Quantum entanglement, Rev.Mod.Phys. 81, 865-942 (2009)
24. Z. Sun, X.G. Wang, H.N. Xiong, Entanglement, purity and fidelity in the anisotropy (1/2,1) mixed-spin system PHYSICA A 388, 1337-1343 (2009)
25. F.Casagrande, A.Lulli, M.G.A. Paris, Tripartite entanglement transfer from flying modes to localized qubits Physical Review A 79, 022307 (2009)
26. G.Adesso, F.Illuminati, Entanglement in continuous-variable systems: recent advances and current perspectives Journal of Physics A 40, 7821-7880 (2007)
27. H.N.Xiong, H.Guo, A theoretical scheme for entanglement transfer under intensity-dependent couplings, CHINESE PHYSICS LETTERS 24, 1805-1808 (2007)
28. M.Hillery: Entanglement conditions for two- and three-mode states, Quantum Communication and Security (ed. M. Zukowski et al.), 190, IOS Press 2007
29. F.Casagrande, A.Lulli, M.Paris: Improving the entanglement transfer from continuous-variable systems to localized qubits using non-Gaussian states Phys.Rev.A 75, 032336 (2007)
30. C.Zander, A.R.Plastino, A.Plastino, M.Casas: Entanglement and the speed of evolution of multi-partite quantum systems Journal of Physics A 40 (11): 2861-2872 (2007)
31. K.M.R.Audenaert, M.B.Plenio, When are correlations quantum? verification and quantification of entanglement by simple measurements, NEW JOURNAL OF PHYSICS 8, 266 (2006)
32. D.Cavalcanti, J.G.Oliveira Jr, J.G.Peixoto de Faria, M.O.Terra Cunha, M.F.Santos, Entanglement versus energy in the entanglement transfer problem, Phys.Rev.A 74, 042328 (2006) [quant-ph/0608139]

M.Hillery, M.Ziman, V.Buzek: Approximate programmable quantum processors, Phys.Rev.A 73, 022345 (2006), [Los Alamos e-print arXive quant-ph/0510161]

1. T. Heinosaari, M. Tukiainen, Notes on deterministic programming of quantum observables and channels, QUANTUM INFORMATION PROCESSING 14, 3097-3114 (2015)
2. J.S. Kim, General polygamy inequality of multiparty quantum entanglement, PHYSICAL REVIEW A 85, 062392 (2012)
3. M. Mikova, H. Fikerova, I. Straka, et al, Increasing efficiency of a linear-optical quantum gate using electronic feed-forward, PHYSICAL REVIEW A 85, 012305 (2012)
4. J.S. Kim, G. Gour, B.C. Sanders, Limitations to sharing entanglement, CONTEMPORARY PHYSICS 53, 417-432 (2012)
5. X.C.Yao, J.Fiurasek, H.Lu , W.B.Gao, Y.A.Chen, Z.B.Chen, J.W.Pan, Experimental Realization of Programmable Quantum Gate Array for Directly Probing Commutation Relations of Pauli Operators, Phys.Rev.Lett 105, 120402 (2010)
6. L.Slodicka, M.Jezek, J.Fiurasek, Experimental demonstration of a teleportation-based programmable quantum gate, Phys.Rev.A 79, 050304 (2009)
7. S.Ishizaka, T.Hiroshima, Quantum teleportation scheme by selecting one of multiple output ports, Phys.Rev.A 79, 042306 (2009)
8. T.Karasawa, J.Gea-Banacloche, M.Ozawa, Gate fidelity of arbitrary single-qubit gates constrained by conservation laws, J.Phys.A 42, 225303 (2009)
9. G.Kimura, B.K.Meister, M.Ozawa, Quantum limits of measurements induced by multiplicative conservation laws: Extension of the Wigner-Araki-Yanase theorem PHYSICAL REVIEW A 78, 032106 (2008)
10. Michal Mičuda, Miroslav Ježek, Miloslav Dušek, and Jaromír Fiurášek, Experimental realization of a programmable quantum gate, Phys. Rev. A 78, 062311 (2008)
11. G.Kimura, B.K.Meister, M.Ozawa, Quantum limits of measurements induced by multiplicative conservation laws: Extension of the Wigner-Araki-Yanase theorem, PHYSICAL REVIEW A 78, 032106 (2008)
12. Iulia Ghiu, Gunnar Bjork: Asymmetric two-output processor in any dimension, Romanian J. Phys. 53, 725 (2008) [Los Alamos e-print arXiv quant-ph/0610138]
13. S.Ishizaka and T.Hiroshima, Asymptotic quantum teleportation to enable universal quantum processor, PHYSICAL REVIEW LETTERS 101, 240501 (2008) [arXiv:0807.4568]
14. Giulio Chiribella, Giacomo Mauro D'Ariano, and Paolo Perinotti, Transforming quantum operations: quantum supermaps, Europhysics Letters 83, 30004 (2008) [arXiv:0804.0180]
15. T.Karasawa, M.Ozawa, Conservation-law induced quantum limits for physical realization of quantum NOT gate, Phys.Rev.A 75, 032324 (2007)
16. J.Gruska, From informatics to quantum informatics, Fourth IFIP International Conference on Theoretical Computer Science - TCS 2006 209, 17 (2006)
17. D.Perez-Garcia: Optimality of programmable quantum measurements, Phys.Rev.A 73, 052315 (2006), [Los Alamos e-print arXiv quant-ph/0602084]

M.Ziman, V.Buzek, Entanglement-induced state ordering under local operations, Phys. Rev. A 73, 012312 (2006), [Los Alamos e-print arXive quant-ph/0510017]

1. X.W. Hou, M.F. Wan, Ma, Zhong-Qi, Tripartite entanglement dynamics for mixed states in the Tavis-Cummings model with intrinsic decoherence, EUROPEAN PHYSICAL JOURNAL D 66, 152 (2012)
2. M. Okrasa, Z. Walczak, Z. On two-qubit states ordering with quantum discords EPL 98, 40003 (2012)
3. X.W.Hou, M.F.Wan, Z.Q.Ma, Dynamical correlations of negativity and entropy for pure and mixed states in two coupled quartic oscillators, EUROPEAN PHYSICAL JOURNAL D 62, 279-288 (2011)
4. X.W.Hou, Entropy correlation and entanglement for mixed states in an algebraic model, Journal of Physiscs A 42, 075301 (2009)
5. Y.Kinoshita, R.Namiki, T.Yamamato, M.Koashi, N.Imoto, Selective entanglement breaking Phys.Rev.A 75, 032307 (2007 )[quant-ph/0611171]
6. Mahmoud Abdel-Aty, Generation of long-living entanglement using cold trapped ions with pair cat states, Applied Physics B 84, 471 (2006)

M.Ziman: Notes on optimality of direct characterization of quantum dynamics, [Los Alamos e-print arXive quant-ph/0603151]

1. M. Mohseni, D. A. Lidar, Reply to M. Ziman's "Notes on optimality of direct characterization of quantum dynamics", [Los Alamos e-print arXive quant-ph/0604114] (2006)

M.Hillery, M.Ziman, V.Buzek, M.Bielikova: Towards quantum-based privacy and voting, Physics Letters A 349, pp. 75-81 (2006), [quant-ph/0505041]

1. High-Capacity Quantum Summation with Single Photons in Both Polarization and Spatial-Mode Degrees of Freedom By: Zhang, Cai; Sun, Zhiwei; Huang, Yi; et al. INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS Volume: 53 Issue: 3 Pages: 933-941 Published: MAR 2014
2. Differential phase shift quantum private comparison By: Liu, Xing-tong; Zhang, Bo; Wang, Jian; et al. QUANTUM INFORMATION PROCESSING Volume: 13 Issue: 1 Special Issue: SI Pages: 71-84 Published: JAN 2014
3. Quantum Private Comparison: A Review By: Liu, Wenjie; Liu, Chao; Wang, Haibin; et al. IETE TECHNICAL REVIEW Volume: 30 Issue: 5 Pages: 439-445 Published: SEP-OCT 2013
4. CRYPTANALYSIS AND IMPROVEMENTS FOR THE QUANTUM PRIVATE COMPARISON PROTOCOL USING EPR PAIRS By: Wang, Cong; Xu, Gang; Yang, Yi-Xian INTERNATIONAL JOURNAL OF QUANTUM INFORMATION Volume: 11 Issue: 4 Article Number: 1350039 Published: JUN 2013
5. Luo Ming-Xing; Chen Xiu-Bo; Deng Yun; et al. Quantum Message Distribution, COMMUNICATIONS IN THEORETICAL PHYSICS 59, 37-42 (2013)
6. Zhou Rui-Rui; Yang Li, Quantum election scheme based on anonymous quantum key distribution, CHINESE PHYSICS B 21, 080391 (2012)
7. Y. Li, G. Zeng, Anonymous quantum network voting scheme, OPTICAL REVIEW 19, 121-124 (2012)
8. L. Jiang, G. He, D. Nie, et al, Quantum anonymous voting for continuous variables, PHYSICAL REVIEW A 85, 042309 (2012)
9. R.R. Zhou, L. Yang, Quantum election based on distributed scheme, QUANTUM AND NONLINEAR OPTICS II Book Series: Proceedings of SPIE Volume: 8554 Article Number: 855404 (2012)
10. J.Lin, H.Y. Tseng, T.Hwang, Intercept-resend attacks on Chen et al.'s quantum private comparison protocol and the improvements, OPTICS COMMUNICATIONS 284, 2412-2414 (2011)
11. D.Horoshko, S.Kilin, Quantum anonymous voting with anonymity check, PHYSICS LETTERS A 375, 1172-1175 (2011)
12. X.B.Chen, G.Xu, YX.Yang, et al. An Efficient Protocol for the Secure Multi-party Quantum Summation, INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS 49, pp. 2793-2804 (2010)
13. R.H.Shi, Y.Wu, Y.Guo, et al. Quantum Distributed Ballot Scheme Based on Greenberger-Horne-Zeilinger State, COMMUNICATIONS IN THEORETICAL PHYSICS 54, pp. 257-262 (2010)
14. K.Hammerer, A.S.Sorensen, E.S.Polzik, Quantum interface between light and atomic ensembles REVIEWS OF MODERN PHYSICS 82, pp. 1041-1093 (2010)
15. A.H.Marblestone and M.Devoret, Exponential quantum enhancement for distributed addition with local nonlinearity, Quantum Information Processing 9, 47 (2010)
16. X.B.Chen, G.Xu, X.X.Niu, Q.Y.Wen, and Y.X.Yang, An efficient protocol for the private comparison of equal information based on the triplet entangled state and single-particle measurement, Optics Communications 283, 1561 (2010)
17. Y.A.Li, G.H.Zeng, Multi-object quantum traveling ballot scheme CHINESE OPTICS LETTERS 7, 152-155 (2009)
18. Y.G.Yang, An efficient two-party quantum private comparison protocol with decoy photons and two-photon entanglement, Journal of Physics A 42,055305 (2009)
19. Y.Li, G.H.Zeng, Quantum anonymous voting systems based on entangled state OPTICAL REVIEW 15, 219-223 (2008)
20. R.J.Runser, T.Chapuran, P.Toliver, et al., Progress toward quantum communications networks: Opportunities and challenges - art. no. 64760I Optoelectronic Integrated Circuits IX Book Series: PROCEEDINGS OF THE SOCIETY OF PHOTO-OPTICAL INSTRUMENTATION ENGINEERS (SPIE) 6476, I4760-I4760 (2007)
21. J.A.Vaccaro, J.Spring, A.Chefles, Quantum protocols for anonymuous voting and surveying, Phys.Rev.A 75, 012333 (2007)
22. S.Dolev, I.Pitowsky, B.Tamir: A quantum secret ballot, [Los Alamos e-print arXive quant-ph/0602087]
23. J.Bouda, J.Sprojcar: Anonymous transmission of quantum information, [Los Alamos e-print arXive quant-ph/0512122]

D.McHugh, V.Buzek, M.Ziman, When non-Gaussian states are Gaussian: Generalization of nonseparability criterion for continuous variables, Phys.Rev.A 74, 050306 (2006)

1. R. Namiki, Photonic families of non-Gaussian entangled states and entanglement criteria for continuous-variable systems, PHYSICAL REVIEW A 85, 062307 (2012)
2. C.J.Zhang, H.Nha, Y.S.Zhang, G.C.Guo, Detection of bound entanglement in continuous-variable systems PHYSICAL REVIEW A 82, 032323 (2010)
3. R.Namiki, Non-Gaussian Entangled States and Entangled Orthonormal Basis JOURNAL OF THE PHYSICAL SOCIETY OF JAPAN 79, 013001 (2010)
4. R. Horodecki, P. Horodecki, M. Horodecki, K. Horodecki, Quantum entanglement, Rev.Mod.Phys. 81, 865-942 (2009)
5. G.Adesso, F.Illuminati, Entanglement in continuous-variable systems: recent advances and current perspectives, JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL 40, 7821-7880 (2007)

M.Ziman: Quantum process reconstruction: the role of initial correlations, [Los Alamos e-print arXive quant-ph/0603166]

1. M. Ringbauer, C. J. Wood, K. Modi, A. Gilchrist, A. G. White, and A. Fedrizzi, Characterizing Quantum Dynamics with Initial System-Environment Correlations, Phys. Rev. Lett. 114, 090402 (2015)
2. K.Modi, E.C.G.Sudarshan, Role of preparation in quantum process tomography PHYSICAL REVIEW A 81, 052119 (2010)
3. C.A. Rodríguez-Rosario, K.Modi, A. Aspuru-Guzik, Linear Assignment Maps for Correlated System-Environment States, [arXiv:0910.5568]
4. C.A. Rodríguez-Rosario, K. Modi, A.M. Kuah, A. Shaji, E. C. G. Sudarshan, Completely Positive Maps and Classical Correlations, J. Phys. A: Math. Theor. 41 (2008) 205301
5. A.Shabani, D.A.Lidar: Quantum Error Correction Beyond Completely Positive Maps, [quant-ph/0610028]

V.Bužek, M.Hillery, M.Ziman, and M.Roško : Programmable quantum processors, Quantum Information Processing 5, Num.5, pp.313-420 (2006)

1. A.E.Rastegin, Partitioned trace distances QUANTUM INFORMATION PROCESSING 9, 61-73 (2010)

M.Ziman, V.Buzek: Concurrence vs. purity: Influence of local channels on Bell states of two qubits, Phys.Rev.A 72, 053325 (2005), [quant-ph/0508106]

1. J.G. Amaro, C. Pineda, Multipartite entanglement dynamics in a cavity, PHYSICA SCRIPTA 90, (6):10.1088/0031-8949/90/6/068019 (2015)
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3. R. Pal and S. Ghosh, Non-locality breaking qubit channels: the case for CHSH inequality, J. Phys. A: Math. Theor. 48, 155302 (2015)
4. P.E.M.F. Mendonca, M.A. Marchiolli, D. Galetti, Entanglement universality of two-qubit X-states, ANNALS OF PHYSICS 351, 79-103 (2014)
5. S. Fritzsche, The FEYNMAN tools for quantum information processing: Design and implementation COMPUTER PHYSICS COMMUNICATIONS 185, 1697-1718 (2014)
6. J.B. Dai, Y.L. Len, Y.S. Teo, L.A. Krivitsky, B.G. Englert, Controllable generation of mixed two-photon states, NEW JOURNAL OF PHYSICS 15, 063011 (2013)
7. E.Solano-Carrillo, R.Franco, J.Silva-Valencia, Entanglement and quantum phase transition in a mixed-spin Heisenberg chain with single-ion anisotropy, PHYSICA A-STATISTICAL MECHANICS AND ITS APPLICATIONS 390, 2208-2214 (2011)
8. J.M.Torres, E.Sadurni, T.H.Seligman, The Dirac-Moshinsky oscillator coupled to an external field and its connection to quantum optics, SYMMETRIES IN NATURE 1323: 301-312 (2010)
9. E.Solano-Carrillo, R.Franco, J.Silva-Valencia, Pairwise entanglement and critical behavior of an anisotropic ferrimagnetic spin chain, PHYSICS LETTERS A 375 (6): 1032-1035 (2011)
10. B.C.Hiesmayr, Testing Quantum Mechanics in High-Energy Physics THEORETICAL FOUNDATIONS OF QUANTUM INFORMATION PROCESSING AND COMMUNICATION 787: 141-185 (2010)
11. A.Rivas, S.F.Huelga, M.B.Plenio, Entanglement and Non-Markovianity of Quantum Evolutions, PHYSICAL REVIEW LETTERS 105, 050403 (2010)
12. L.Mazzola, B.Bellomo, R. Lo Franco, G.Compagno, Connection among entanglement, mixedness, and nonlocality in a dynamical context PHYSICAL REVIEW A 81, 052116 (2010)
13. J.M.Torres, E.Sadurni, T.H.Seligman, Two interacting atoms in a cavity: exact solutions, entanglement and decoherence JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL 43, 192002 (2010)
14. L.Mazzola, S.Maniscalco, J.Piilo, K.A.Suominen, Interplay between entanglement and entropy in two-qubit systems, JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS 43, 085505 (2010)
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16. C.Pineda, T.H.Seligman, Random matrix models for decoherence and fidelity decay in quantum information systems, LATIN-AMERICAN SCHOOL OF PHYSICS XXXVIII ELAF Book Series: AIP CONFERENCE PROCEEDINGS 994, 47-75 (2008)
17. C.Pineda, One, two, and n qubit decoherence [Los Alamos e-print arXiv:0711.4642 ] (2007), PhD thesis
18. A.Aiello, G.Puentes, J.P.Woerdman, Linear optics and quantum maps, Phys.Rev. A 76, 032323 (2007)
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22. B.C.Hiesmayr, Nonlocality and entanglement in a strange system, European Physical Journal C 50, 73-79 (2007) [quant-ph/0607210]
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28. D.Cavalcanti, J.G.Oliveira Jr, J.G.Peixoto de Faria, M.O.Terra Cunha, M.F.Santos, Entanglement versus energy in the entanglement transfer problem, [Los Alamos e-print arXive quant-ph/0608139] (2006)
29. A.Borras, M.Casas, A.R.Plastino, A.Plastino: Entanglement and the lower bounds on the speed of quantum evolution, Phys.Rev.A 74, 022326 (2006)
30. B.Hiesmayr, M.Koniorczyk, H.Narnhofer, Maximizing nearest-neighbor entanglement in finitely correlated qubit chains, Physical Review A 73, 032310 (2006)

M.Ziman and V.Buzek: Realization of POVMs using measurement assisted programmable quantum processors., Phys.Rev.A 72, 022343 (2005) [Los Alamos e-print arXiv quant-ph/0411135].

1. T. Heinosaari, M. Tukiainen, Notes on deterministic programming of quantum observables and channels, QUANTUM INFORMATION PROCESSING 14, 3097-3114 (2015)
2. Li-Wei Chang, Shi-Hui Zheng, Li-Ze Gu, Lei Jin, Yi-Xian Yang: Multiparty-controlled Joint Remote Preparation of an Arbitrary Four-qubit Cluster-type State via Two Different Entangled Quantum Channels, International Journal of Theoretical Physics (2015)
3. By: Chang Li-Wei; Zheng Shi-Hui; Gu Li-Ze; et al. Joint remote preparation of an arbitrary five-qubit Brown state via non-maximally entangled channels, CHINESE PHYSICS B 23, 090307 (2014)
4. M. Dall'Arno, Michele; F. Buscemi, M. Ozawa, Tight bounds on accessible information and informational power JOURNAL OF PHYSICS A-MATHEMATICAL AND THEORETICAL 47, 235302 (2014)
5. Three schemes of remote information concentration based on ancilla-free phase-covariant telecloning By: Bai, Ming-qiang; Peng, Jia-Yin; Mo, Zhi-Wen QUANTUM INFORMATION PROCESSING Volume: 13 Issue: 5 Pages: 1067-1083 Published: MAY 2014
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1. J. Jin, V. Giovannetti, R. Fazio, F. Sciarrino, P. Mataloni, A. Crespi, R. Osellame, All-optical non-Markovian stroboscopic quantum simulator, PHYSICAL REVIEW A 91, 012122 (2015)
2. V. Giovannetti, G.M. Palma, Master equation for cascade quantum channels: a collisional approach, Journal of Physics B 45, 154003 (2012)
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1. G. Benenti, G. Strini, Dynamical Casimir effect and minimal temperature in quantum thermodynamics, PHYSICAL REVIEW A 91, 020502 (2015)
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3. Quantum channels and memory effects By: Caruso, Filippo; Giovannetti, Vittorio; Lupo, Cosmo; et al. REVIEWS OF MODERN PHYSICS Volume: 86 Issue: 4 Pages: 1203-1259 Published: DEC 10 2014
4. Environmental correlations and Markovian to non-Markovian transitions in collisional models By: Bernardes, N. K.; Carvalho, A. R. R.; Monken, C. H.; et al. PHYSICAL REVIEW A Volume: 90 Issue: 3 Article Number: 032111 Published: SEP 22 2014
5. Quantum non-Markovianity: characterization, quantification and detection By: Rivas, Angel; Huelga, Susana F.; Plenio, Martin B. REPORTS ON PROGRESS IN PHYSICS Volume: 77 Issue: 9 Article Number: 094001 Published: SEP 2014
6. Non-Markovianity and system-environment correlations in a microscopic collision model By: McCloskey, Ruari; Paternostro, Mauro PHYSICAL REVIEW A Volume: 89 Issue: 5 Article Number: 052120 Published: MAY 19 2014
7. Embedding non-Markovian quantum collisional models into bipartite Markovian dynamics By: Budini, Adrian A. PHYSICAL REVIEW A Volume: 88 Issue: 3 Article Number: 032115 Published: SEP 25 2013
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11. V. Giovannetti, G.M. Palma, Master equation for cascade quantum channels: a collisional approach, Journal of Physics B 45, 154003 (2012)
12. V. Giovannetti, G.M. Palma, Master Equations for Correlated Quantum Channels, PHYSICAL REVIEW LETTERS 108, 040401 (2012)
13. G.Gennaro, Relaxation Due to the Partial Swap Collisions with a Random Reservoir, OPEN SYSTEMS & INFORMATION DYNAMICS 18, 353-362 (2011)
14. J.Novotny, G.Alber, I.Jex, Entanglement and Decoherence: Fragile and Robust Entanglement, PHYSICAL REVIEW LETTERS 107, 090501 (2011)
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18. S.Attal, C.Pellegrini, Stochastic Master Equations in Thermal Environment, OPEN SYSTEMS & INFORMATION DYNAMICS 17 (4): 389-408 (2010)
19. G.Gennaro, G.Benenti, G.M.Palma, Ergodicity in randomly colliding qubits, INTERNATIONAL JOURNAL OF QUANTUM INFORMATION 7: 163-169 (2009)
20. G.Gennaro, S.Campbell, M.Paternostro, G.M.Palma, Structural change in multipartite entanglement sharing: A random matrix approach Physical Review A 80, 062315 (2009)
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M.Ziman, M.Plesch, V.Buzek, Process reconstruction from incomplete and/or inconsistent data, European Physics Journal D 32, 215 (2005)

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1. D. Sadhukhan, S.S. Roy, D. Rakshit, A. Sen, U. Sen, Beating no-go theorems by engineering defects in quantum spin models, NEW JOURNAL OF PHYSICS 17, 043013 (2015)
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P.Stelmachovic, M.Ziman, V.Buzek, et al.: Microscopic description of information transfer from a qudit to reservoir, Fortschr.Phys. 51, 280-287 (2003)

1. D.Burgarth, V.Giovannetti, Mediated homogenization Phys.Rev.A 76, 062307 (2007)

M.Ziman, P.Stelmachovic, V.Buzek, Saturation of Coffman-Kundu-Wootters inequalities via quantum homogenization Journal of Optics B 5, pp.439-441 (2003)

1. The multilevel four-stroke swap engine and its environment By: Uzdin, Raam; Kosloff, Ronnie NEW JOURNAL OF PHYSICS Volume: 16 Article Number: 095003 Published: SEP 12 2014
2. Non-Markovianity and system-environment correlations in a microscopic collision model By: McCloskey, Ruari; Paternostro, Mauro PHYSICAL REVIEW A Volume: 89 Issue: 5 Article Number: 052120 Published: MAY 19 2014
3. V. Giovannetti, G.M. Palma, Master equation for cascade quantum channels: a collisional approach, Journal of Physics B 45, 154003 (2012)
4. V. Giovannetti, G.M. Palma, Master Equations for Correlated Quantum Channels, PHYSICAL REVIEW LETTERS 108, 040401 (2012)
5. G.Gennaro, Relaxation Due to the Partial Swap Collisions with a Random Reservoir, OPEN SYSTEMS & INFORMATION DYNAMICS 18, 353-362 (2011)
6. G.Gennaro, S.Campbell, M.Paternostro, G.M.Palma, Structural change in multipartite entanglement sharing: A random matrix approach Physical Review A 80, 062315 (2009)
7. G.Gennaro, G.Benenti, G.M. Palma, Relaxation due to random collisions with a many-qudit environment, Physical Review A 79, 022105 (2009)
8. G.Gennaro, G.Benenti, G.M. Palma, Entanglement dynamics and relaxation in a few-qubit system interacting with random collisions, EPL 82, 20006 (2008)
9. D.Burgarth, V.Giovannetti, Mediated homogenization Phys.Rev.A 76, 062307 (2007)
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11. G.Benenti, G.M.Palma, Reversible and irreversible dynamics of a qubit interacting with a small environment, Phys.Rev.A 75, 052110 (2007)
12. Dawson CM, Hines AP, McKenzie RH, et al. Entanglement sharing and decoherence in the spin-bath Phys.Rev.A 71, 052321 (2005)

V.Scarani, M.Ziman, P.Stelmachovic, N.Gisin,V.Buzek Thermalizing quantum machines: Dissipation and entanglement Phys.Rev.Lett. 88, 097905 (2002)

1. Antonio A. Valido, Antonia Ruiz, and Daniel Alonso, Quantum correlations and energy currents across three dissipative oscillators, Phys. Rev. E 91, 062123 (2015)
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4. D.E. Bruschi, M. Perarnau-Llobet, N. Friis, K.V. Hovhannisyan, M. Huber, Thermodynamics of creating correlations: Limitations and optimal protocols PHYSICAL REVIEW E 91, 032118 (2015)
5. F. Caruso, V. Giovannetti, C. Lupo, et al., Quantum channels and memory effects, REVIEWS OF MODERN PHYSICS 86, (2014)
6. The multilevel four-stroke swap engine and its environment By: Uzdin, Raam; Kosloff, Ronnie NEW JOURNAL OF PHYSICS Volume: 16 Article Number: 095003 Published: SEP 12 2014
7. Guaranteed Energy-Efficient Bit Reset in Finite Time By: Browne, Cormac; Garner, Andrew J. P.; Dahlsten, Oscar C. O.; et al. PHYSICAL REVIEW LETTERS Volume: 113 Issue: 10 Article Number: 100603 Published: SEP 4 2014
8. Quantum non-Markovianity: characterization, quantification and detection By: Rivas, Angel; Huelga, Susana F.; Plenio, Martin B. REPORTS ON PROGRESS IN PHYSICS Volume: 77 Issue: 9 Article Number: 094001 Published: SEP 2014
9. Non-Markovianity and system-environment correlations in a microscopic collision model By: McCloskey, Ruari; Paternostro, Mauro PHYSICAL REVIEW A Volume: 89 Issue: 5 Article Number: 052120 Published: MAY 19 2014
10. Embedding non-Markovian quantum collisional models into bipartite Markovian dynamics By: Budini, Adrian A. PHYSICAL REVIEW A Volume: 88 Issue: 3 Article Number: 032115 Published: SEP 25 2013
11. A. Bodor, L. Diosi, Z. Kallus, T. Konrad, Structural features of non-Markovian open quantum systems using quantum chains, PHYSICAL REVIEW A 87, 052113 (2013)
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14. V. Giovannetti, G.M. Palma, Master Equations for Correlated Quantum Channels, PHYSICAL REVIEW LETTERS 108, 040401 (2012)
15. G.Gennaro, Relaxation Due to the Partial Swap Collisions with a Random Reservoir, OPEN SYSTEMS & INFORMATION DYNAMICS 18, 353-362 (2011)
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