Non-Markovian Processes and Complex Systems

Publications

SCIENTIFIC PUBLICATIONS IN INTERNATIONAL REFEREED JOURNALS

2024

  1. Z.-D. Liu, O. Siltanen, T. Kuusela, R.-H. Miao, C.-X. Ning, C.-F. Li, G.-C. Guo, and J. Piilo,
    "Overcoming noise in quantum teleportation with multipartite hybrid entanglement",
    Science Advances 10, eadj3435 (2024).
    [Science Advances online (open access article)].
  2. J. Nokkala, J. Piilo, and G. Bianconi,
    "Complex quantum networks: a topical review",
    Journal Of Physics A, in press (118 pages)
    Accepted article available at JPhysA (open access article).
    [doi 10.1088/1751-8121/ad41a6]
  3. J. Kivelev, I. Saarenpaa, A. Karlsson, P. Crisafulli, F. Musciotto, Jyrki Piilo, and R. N. Mantegna,
    "Complex networks approach to study comorbidities in patients with unruptured intracranial aneurysms",
    Scientific Reports 14, 9175 (2024).
    [Scientific Reports online (open access article)].

2023

  1. P. Renault, J. Nokkala, G. Roeland, N.Y. Joly, R. Zambrini, S. Maniscalco, J. Piilo, N. Treps, and V. Parigi,
    "Experimental Optical Simulator of Reconfigurable and Complex Quantum Environment",
    PRX Quantum 4, 040310 (2023).
    [PRX Quantum online (open access article)].
  2. A. Kurt, M. A. C. Rossi and J. Piilo,
    "Quantum transport efficiency in noisy random-removal and small-world networks",
    Journal of Physics A 56, 145301 (2023).
    [JPhysA online (open access article)].
  3. Y.-N. Sun, K. Luoma, Z.-D. Liu, J. Piilo, C.-F. Li, and G.-C. Guo,
    "Stationary quantum memory effects induced by a periodic time-dependent system-environment coupling",
    Physical Review A 108, 012213 (2023).
    [PRA online, arXiv:2107.05314 (quant-ph)].

2022

  1. D. Chruscinski, K. Luoma, J. Piilo, and A. Smirne,
    "How to design quantum-jump trajectories via distinct master equation representations",
    Quantum 6, 835 (2022).
    [Quantum online (open access)].
  2. H. Lyyra, O. Siltanen, J. Piilo, S. Banerjee, and T. Kuusela,
    "Experimental snapshot verification of non-Markovianity by quantum probing of convex coefficients",
    Physical Review A 106, 032603 (2022).
    [PRA online, arXiv:2107.07876 (quant-ph)].

2021

  1. A. S. Hegde, K. P. Athulya, V. Pathak, J. Piilo, and A. Shaji,
    "Open quantum dynamics with singularities: Master equations and degree of non-Markovianity",
    Physical Review A 104, 062403 (2021).
    [PRA online, arXiv:2001.10803 (quant-ph)].
  2. F. Musciotto, J. Piilo, and R. N. Mantegna,
    "High-frequency trading and networked markets",
    Proc. Natl. Acad. Sci. U.S.A. (PNAS) 118, e2015573118 (2021).
    [PNAS online]
  3. O. Siltanen, T. Kuusela, and J. Piilo,
    "Engineering of Hong-Ou-Mandel interference with effective noise",
    Physical Review A 104, 042201 (2021).
    [PRA online, arXiv:2008.02826 (quant-ph)].
  4. J. Nokkala, J. Piilo, and G. Bianconi,
    "Probing the spectral dimension of quantum network geometries",
    Journal of Physics: Complexity (IOP) 2, 015001 (2021) .
    [JPC online, arXiv:2005.09665 (quant-ph)].
  5. O. Siltanen, T. Kuusela, and J. Piilo,
    "Interferometric Approach to Open Quantum Systems and Non-Markovian Dynamics",
    Physical Review A 103, 032223 (2021).
    [PRA online, arXiv:2008.02826 (quant-ph)].

2020

  1. K. Luoma, W. T. Strunz, and J. Piilo,
    "Diffusive limit of non-Markovian quantum jumps",
    Physical Review Letters 125, 150403 (2020) .
    [PRL online, arXiv:2004.12072 (quant-ph)].
  2. Z.-D. Liu, Y.-N. Sun, B.-H. Liu, C.-F. Li, G.-C. Guo, S. Hamedani Raja, H. Lyyra and J. Piilo,
    "Experimental realization of high-fidelity teleportation via non-Markovian open quantum system",
    Physical Review A 102, 062208 (2020).
    [PRA online, arXiv:2007.01318 (quant-ph)].
  3. H. Lyyra, O. Siltanen, J. Piilo, S. Banerjee, and T. Kuusela,
    "Experimental Quantum Probing Measurements With No Knowledge on the System-Probe Interaction",
    Physical Review A 102, 022232 (2020).
    [PRA online, arXiv:2004.06609 (quant-ph)].
  4. O. Siltanen, T. Kuusela, and J. Piilo,
    "Distributing Memory Effects in an Open Two-Qubit System",
    Physical Review A 102, 022225 (2020).
    [PRA online, arXiv:2002.12684 (quant-ph)].
  5. A. Smirne, M. Caiaffa, and J. Piilo,
    "Rate Operator Unraveling for Open Quantum System Dynamics",
    Physical Review Letters 124, 190402 (2020).
    [PRL online, arXiv:2004.09537 (quant-ph)].
  6. S. Hamedani Raja, K. P. Athulya, A. Shaji, and J. Piilo,
    "Photonic dephasing dynamics and the role of initial correlations",
    Physical Review A 101, 042127 (2020).
    [PRA online, arXiv:2001.10803 (quant-ph)].
  7. W. W. Cheng and J. Piilo,
    "Scaling of Einstein-Podolsky-Rosen steering in spin chains",
    Physica Scripta 95, 035105 (2020).
    [Phys. Scr. online].
  8. A. Kurt, M. A. C. Rossi, and J. Piilo,
    "Efficient quantum transport in a multi-site system combining classical noise and quantum baths",
    New Journal of Physics 22, 013028 (2020).
    [NJP online, arXiv:1909.00167 (quant-ph)].

2019

  1. C.-F. Li, G.-C. Guo, and J. Piilo,
    "Non-Markovian quantum dynamics: What is it good for?",
    EPL (Europhysics Letters) 128, 30001 (2019).
    [EPL online, arXiv:2001.02247 (quant-ph)].
    Short review article on the experiments of non-Markovian quantum dynamics.
    Chosen for EPL Highlights 2019 collection.
  2. C.-F. Li, G.-C. Guo, and J. Piilo,
    "Non-Markovian quantum dynamics: What does it mean?",
    EPL (Europhysics Letters) 127, 50001 (2019) .
    [EPL online, arXiv:2001.02252 (quant-ph)].
    Short review article on the theory of quantifying non-Markovianity.
    Chosen for EPL Highlights 2019 collection.
  3. E. Puccio, P. Vassallo, J. Piilo, and M. Tumminello,
    "Covariance and correlation estimators in bipartite complex systems with a double heterogeneity",
    Journal of Statistical Mechanics: Theory and Experiment, 053404 (2019).
    [JStat online].

2018

  1. Z.-D. Liu, H. Lyyra, Y.-N. Sun, B.-H. Liu, C.-F. Li, G.-C. Guo, S. Maniscalco, and J. Piilo,
    "Experimental implementation of fully controlled dephasing dynamics and synthetic spectral densities",
    Nature Communications 9, 3453 (2018).
    [NatCom online, arXiv:1712.08071 (quant-ph)].
  2. J. Nokkala, S. Maniscalco, and J. Piilo,
    "Local probe for connectivity and coupling strength in quantum complex networks",
    Scientific Reports 8, 13010 (2018)
    [SciRep online, arXiv:1708.09625 (quant-ph)].
  3. F. Musciotto, L. Marotta, J. Piilo, and R. N. Mantegna
    "Long-term ecology of investors in a financial market",
    Palgrave Communications 4, 92 (2018).
    [Palgrave Comm. online]
  4. J. Nokkala, F. Arzani, F. Galve, R. Zambrini, S. Maniscalco, J. Piilo, N. Treps, and V. Parigi,
    "Reconfigurable optical implementation of quantum complex networks",
    New Journal of Physics 20, 053024 (2018).
    [NJP online, arXiv:1708.08726 (quant-ph)].

2017

  1. J. Nokkala, S. Maniscalco, and J. Piilo,
    "Non-Markovianity over ensemble averages in quantum complex networks",
    Open Systems & Information Dynamics 24, 1740018 (2017).
    [OSID online, arXiv:1712.08421 (quant-ph)].
  2. S. N. Filippov, J. Piilo, S. Maniscalco, and M. Ziman,
    "Divisibility of quantum dynamical maps and collision models",
    Physical Review A 96, 032111 (2017).
    [PRA online, arXiv:1708.04994 (quant-ph)].
  3. N. Megier, D. Chruscinski, J. Piilo, and W. T. Strunz
    "Eternal non-Markovianity: from random unitary to Markov chain realisations",
    Scientific Reports 7, 6379 (2017).
    [SciRep online, arXiv:1608.07125 (quant-ph)].
  4. H. Lyyra, G. Karpat, C.-F. Li, G.-C. Guo, J. Piilo, and S. Maniscalco
    "Symmetry in the open-system dynamics of quantum correlations",
    Scientific Reports 7, 8367 (2017).
    [SciRep online, arXiv:1611.06048 (quant-ph)].
  5. S. Hamedani Raja, G. Karpat, E.-M. Laine, S. Maniscalco, J. Piilo, C.-F. Li, G.-C. Guo
    "Remote polarization entanglement generation by local dephasing and frequency upconversion",
    Physical Review A 96, 013844 (2017).
    [PRA online, arXiv:1705.01713 (quant-ph)]
  6. I. Siloi, C. Benedetti, E. Piccinini, J. Piilo, S. Maniscalco, M. G. A. Paris, and P. Bordone
    "Noisy quantum walks of two indistinguishable interacting particles",
    Physical Review A 95, 022106 (2017).
    [PRA online, arXiv:1610.04180 (quant-ph)].

2016

  1. A. Karlsson, F. Francica, J. Piilo, and F. Plastina
    "Quantum Zeno effect and non-Markovianity in a three-level system",
    Scientific Reports 6, 39061 (2016).
    [SciRep online, arXiv:1602.01235 (quant-ph)].
  2. B.-H. Liu,X.-M. Hu,J.-S. Chen, C. Zhang, Y.-F. Huang,C.-F. Li, G.-C. Guo, G. Karpat, F. F. Fanchini, J. Piilo, and S. Maniscalco
    "Time-invariant entanglement and sudden death of non-locality",
    Physical Review A 94, 062107 (2016).
    [ PRA online, arXiv:1603.09119 (quant-ph)].
  3. J. Nokkala, F. Galve, R. Zambrini, S. Maniscalco, and J. Piilo,
    "Complex quantum networks as structured environments: engineering and probing",
    Scientific Reports 6, 26861 (2016).
    [SciRep online, arXiv:1503.04635 (quant-ph)]
  4. E. Puccio, A. Pajala, J. Piilo, and M. Tumminello,
    "Structure and Evolution of a European Parliament via a Network and Correlation Analysis",
    Physica A 462, 167 (2016).
    [Physica A online, arXiv:1603.09319 (physics.soc-ph), SSRN:2731304].
  5. J. Sun, Y.-N. Sun, C.-F. Li, G.-C Guo, K. Luoma, and J. Piilo,
    "Non-Markovian discrete qubit dynamics",
    Science Bulletin 61, 1031 (2016).
    [SciBul online, arXiv:1602.00060 (quant-ph)].
  6. K. Luoma and J. Piilo,
    "Discrete dynamics and non-Markovianity",
    Journal of Physics B 49, 125501 (2016).
    [JPhysB online, arXiv:1509.04231 (quant-ph)].
  7. B.-H. Liu, X.-M. Hu, Y.-F. Huang, C.-F. Li, G.-C. Guo, A. Karlsson, E.-M. Laine, S. Maniscalco, C. Macchiavello, and J. Piilo,
    "Efficient superdense coding in the presence of non-Markovian noise",
    EPL (Europhysics Letters) 114, 10005 (2016).
    [EPL online, arXiv:1504.07572 (quant-ph)]
  8. B. Bylicka, M.Tukiainen, D. Chruscinski, J. Piilo, and S. Maniscalco,
    Scientific Reports 6, 27989 (2016).
    "Thermodynamic meaning and power of non-Markovianity",
    [SciRep online, arXiv:1504.06533 (quant-ph)]
  9. F. Musciotto, L. Marotta, S. Miccichè, J. Piilo, and R. N. Mantegna,
    "Patterns of trading profiles at the Nordic Stock Exchange. A correlation-based approach",
    Chaos, Solitons and Fractals 88, 267 (2016).
    [CFS online, arXiv:1511.06873 (q-fin), SSRN server].
  10. H.-P. Breuer, E.-M. Laine, J. Piilo, and B. Vacchini,
    "Non-Markovian dynamics in open quantum systems",
    Reviews of Modern Physics 88, 021002 (2016).
    [RMP online, arXiv:1505.01385 (quant-ph)]
  11. A. Karlsson, H. Lyyra, E.-M. Laine, S. Maniscalco, and J. Piilo,
    "Non-Markovian dynamics in two-qubit dephasing channels with an application to superdense coding",
    Physical Review A 93, 032135 (2016).
    [PRA online, arXiv:1509.05307 (quant-ph)].

2015

  1. G. Karpat, J. Piilo, and S. Maniscalco,
    "Controlling entropic uncertainty bound through memory effects",
    EPL 111, 50006 (2015) (6 pages).
    [EPL online, arXiv:1504.02391 (quant-ph)]
  2. F. Lillo, S. Miccichè, M. Tumminello, J. Piilo, and R. N. Mantegna,
    "How news affect the trading behavior of different categories of investors in a financial market",
    Quantitative Finance 15, 213-229 (2015) (30 pages).
    [Quantitative Finance, arXiv:1207.3300 (q-fin.ST)]

2014

  1. K. Luoma, P. Haikka, and J. Piilo,
    "Detecting non-Markovianity from continuous monitoring",
    Physical Review A 90, 054101 (2014) (5 pages).
    [PRA online, arXiv:1409.4516 (quant-ph)]
  2. G.-Y. Xiang, Z. Hou, C.-F. Li, G.-C. Guo, H.-P. Breuer, E.-M. Laine, and J. Piilo,
    "Entanglement distribution in optical fibers assisted by nonlocal memory effects",
    EPL 107, 54006 (2014) (6 pages).
    [EPL online , arXiv:1401.5091 (quant-ph)]
  3. B.-H. Liu, S. Wissmann, X.-M. Hu, C. Zhang, Y.-F. Huang, C.-F. Li, G.-C. Guo, A. Karlsson, J. Piilo, and H.-P. Breuer,
    "Locality and universality of quantum memory effects",
    Scientific Reports 4, 6327 (2014) (5 pages).
    [SciRep online, arXiv:1403.4261 (quant-ph)]
  4. E.-M. Laine, H.-P. Breuer, and J. Piilo,
    "Nonlocal memory effects allow perfect teleportation with mixed states",
    Scientific Reports 4, 4620 (2014) (5 pages).
    [SciRep online, arXiv:1210.8266 (quant-ph)

2013

  1. B.-H. Liu, D.-Y. Cao, Y.-F. Huang, C.-F. Li, G.-C. Guo, E.-M. Laine, H.-P. Breuer, and J. Piilo,
    "Photonic realization of nonlocal memory effects and non-Markovian quantum probes",
    Scientific Reports 3, 1781 (2013) (6 pages).
    [SciRep online, arXiv:1208.1358 (quant-ph)]
  2. M. Tumminello, S. Miccichè, J. Varho, J. Piilo, and R. N. Mantegna,
    "Quantitative analysis of gender stereotypes and information aggregation in a national election",
    PLoS ONE 8, e58910 (2013) (10 pages).
    [PLoS One online, SSRN 2173980]

2012

  1. S. Wissmann, A. Karlsson, E.-M. Laine, J. Piilo, and H.-P. Breuer,
    "Optimal state pairs for non-Markovian quantum dynamics",
    Physical Review A 86, 062108 (2012) (6 pages).
    [PRA online, arXiv:1209.4989 (quant-ph) (6 pages)]
  2. A. Smirne, E.-M. Laine, H.-P. Breuer, J. Piilo, and B. Vacchini,
    "Role of correlations in the thermalization of quantum systems",
    New Journal of Physics 14, 113034 (2012) (17 pages).
    [NJP online, arXiv:1207.3700 (quant-ph) (15 pages)]
  3. K. Luoma, K. Härkönen, S. Maniscalco, K.-A. Suominen, and J. Piilo,
    "Non-Markovian waiting time distribution for quantum jumps in open systems",
    Physical Review A 86, 022102 (2012) (8 pages).
    [PRA online, arXiv:1205.6952 (quant-ph) (8 pages)]
  4. E.-M. Laine, K. Luoma, and J. Piilo,
    "Local in time master equations with memory effects: Applicability and interpretation",
    Journal of Physics B: Atomic, Molecular, and Optical Physics 45, 154004 (2012) (8 pages).
    (Special issue on loss of coherence and memory effects in quantum dynamics).
    [JPB online, arXiv:1207.2343 (quant-ph)]
  5. C. Lazarou, K. Luoma, S. Maniscalco, J. Piilo, and B. M. Garraway,
    "Entanglement trapping in a non-stationary structured reservoir",
    Physical Review A 86, 012331 (2012) (9 pages) (2012).
    [PRA online, arXiv:1205.5401(quant-ph) (10 pages)]
  6. M. Gessner, E.-M. Laine, H.-P. Breuer, and J. Piilo,
    "Correlations in quantum states and the local creation of quantum discord",
    Physical Review A 85, 052122 (2012) (4 pages).
    [PRA online, arXiv:1202.1958 (quant-ph)]
  7. E.-M. Laine, H.-P. Breuer, J. Piilo, C.-F. Li, and G.-C. Guo,
    "Nonlocal memory effects in the dynamics of open quantum systems",
    Physical Review Letters 108, 210402 (2012) (5 pages).
    Erratum: Physical Review Letters 111, 229901 (2013).
    [PRL online, arXiv:1111.4481 (quant-ph)]
  8. M. Tumminello, F. Lillo, J. Piilo, and R. N. Mantegna,
    "Identification of clusters of investors from their real trading activity in a financial market",
    New Journal of Physics 14, 013041 (2012) (26 pages).
    [NJP online, arXiv:11107.3942 (physics.soc-ph)]
    For a news article at PhysOrg, see here.
  9. J.-S. Tang, C.-F. Li, Y.-L. Li, X.-B. Zou, G.-C. Guo, H.-P. Breuer, E.-M. Laine, and J. Piilo,
    "Measuring non-Markovianity of processes with controllable system-environment interaction",
    EPL 97, 10002 (2012) (5 pages)
    [EPL online, arXiv:1109.2438 (quant-ph)]

2011

  1. R. Vasile, S. Maniscalco, M. G. A. Paris, H.-P. Breuer, and J. Piilo,
    "Quantifying non-Markovianity of continuous variable Gaussian dynamical maps",
    Physical Review A 84, 052118 (2011) (9 pages).
    [PRA online, arXiv:1109.0242 (quant-ph)]
  2. B.-H. Liu, L. Li, Y.-F. Huang, C.-F. Li, G.-C. Guo, E.-M. Laine, H.-P. Breuer, and J. Piilo,
    "Experimental control of the transition from Markovian to non-Markovian dynamics of open quantum systems",
    Nature Physics 7, 931-934 (2011).
    [NP online, arXiv:1109.2677 (quant-ph)]
    For the associated News and Views article, see here.
  3. K. Luoma, K.-A. Suominen, and J. Piilo,
    "Connecting two jumplike unravelings for non-Markovian open quantum systems",
    Physical Review A 84, 032113 (2011) (10 pages).
    [PRA online, arXiv:1106.3173 (quant-ph), (11 pages)]
  4. B. Vacchini, A. Smirne, E.-M. Laine, J. Piilo, and H.-P. Breuer,
    "Markovian and non-Markovian dynamics in quantum and classical systems",
    New Journal of Physics 13, 093004 (2011) (25 pages).
    [NJP online, arXiv:1106.0138 (quant-ph), (15 pages)]
  5. L. Mazzola, J. Piilo, and S. Maniscalco,
    "Frozen discord in non-Markovian depolarizing channels",
    International Journal of Quantum Information 9, 981-991 (2011).
    [IJQI online, arXiv:1006.1805 (quant-ph), (6 pages)]
  6. M. Tumminello, S. Miccichè, F. Lillo, J. Piilo, and R. N. Mantegna,
    "Statistically validated networks in bipartite complex systems",
    PLoS ONE 6, e17994 (2011) (11 pages).
    [PLoS ONE online, arXiv:1008.1414 (physics.soc-ph)]
  7. C. Lazarou, B. M. Garraway, J. Piilo, and S Maniscalco,
    "Generation of entanglement density within a reservoir",
    Journal of Physics B: Atomic, Molecular, and Optical Physics 44, 065505 (2011) (8 pages).
    [JPB online, arXiv:1008.2621 (quant-ph)]
  8. M. Tumminello, S. Miccichè, F. Lillo, J. Varho, J. Piilo, and R. N. Mantegna,
    "Community characterization of heterogeneous complex systems",
    Journal of Statistical Mechanics: Theory and Experiment , P01019 (2011) (14 pages).
    [JSTAT online, arXiv:1011.4161 (physics.soc-ph)]

2010

  1. E.-M. Laine, J. Piilo, and H.-P. Breuer,
    "Witness for initial system-reservoir correlations in open system dynamics",
    Europhysics Letters 92, 60010 (2010) (5 pages).
    [EPL online, arXiv:1004.2184 (quant-ph)]
  2. A. Smirne, H.-P. Breuer, J. Piilo, and B. Vacchini,
    "Initial correlations in open system's dynamics: The Jaynes-Cummings model",
    Physical Review A 82, 062114 (2010) (10 pages).
    [PRA online, arXiv:1010.4402 (quant-ph)]
  3. E.-M. Laine,
    "A quantum jump description for the non-Markovian dynamics of the spin-boson model"
    .
    Physica Scripta T140, 014053 (2010) (9 pages).
    [PS online , arXiv:0909.5565 (quant-ph)]
  4. L. Mazzola,
    Sudden violation of the CHSH inequality in a two-qubit system"
    .
    Physica Scripta T140, 014055 (2010) (7 pages).
    [PS online , arXiv:1002.1000 (quant-ph)]
  5. L. Mazzola, E.-M. Laine, H.-P. Breuer, S. Maniscalco, and J. Piilo,
    "Phenomenological memory-kernel master equations and time-dependent Markovian processes".
    Physical Review A 81, 062120 (2010) (5 pages).
    [PRA online, arXiv:1003.3817 (quant-ph)]
  6. E.-M. Laine, J. Piilo, and H.-P. Breuer,
    "Measure for the non-Markovianity of quantum processes",
    Physical Review A 81, 062115 (2010) (8 pages).
    [PRA online, arXiv:1002.2583 (quant-ph)]
  7. L. Mazzola, J. Piilo, and S. Maniscalco,
    "Sudden transition between classical and quantum decoherence",
    Physical Review Letters 104, 200401 (2010) (4 pages).
    [PRL online, arXiv:1001.5441 (quant-ph)]
  8. L. Mazzola, S. Maniscalco, J. Piilo and K.-A. Suominen,
    "Interplay between entanglement and entropy in two-qubit systems",
    Journal of Physics B 43, 085505 (2010) (10 pages).
    [JPB online, arXiv:0904.2857 (quant-ph)]
  9. K. Härkönen,
    "Jump probabilities in the non-Markovian quantum jump method",
    Journal of Physics A: Math. Theor. 43, 065302 (2010) (10 pages).
    [JPA online, arXiv:1001.3566 (quant-ph)]

2009

  1. SuggestionPhysics Viewpoint
    H.-P. Breuer, E.-M. Laine, and J. Piilo,
    "Measure for the degree of non-Markovian behavior of quantum processes in open systems",
    Physical Review Letters 103, 210401 (2009) (4 pages).
    [PRL online, arXiv:0908.0238 (quant-ph)]
    Selected as "Editors' Suggestion" and highlighted in Physics.
  2. J. Piilo, K. Härkönen, S. Maniscalco, and K.-A. Suominen,
    "Open system dynamics with non-Markovian quantum jumps",
    Physical Review A 79, 062112 (2009) (17 pages).
    [PRA online, arXiv:0902.3609 (quant-ph)]
  3. S. Maniscalco, J. Piilo, and K.-A. Suominen,
    "Non-Markovian weak coupling limit of quantum Brownian motion",
    European Physical Journal D 55, 181-187 (2009).
    [EPJD online, arXiv:0812.1096 (quant-ph)]
  4. L. Mazzola, S. Maniscalco, J. Piilo, and K.-A. Suominen, "Pseudomodes as an effective description of memory: Non-Markovian dynamics of two-state systems in structured reservoirs",
    Physical Review A 80, 012104 (2009) (5 pages).
    [PRA online, arXiv:0810.1361 (quant-ph)]
  5. J. Paavola, J. Piilo, K.-A. Suominen, and S. Maniscalco,
    "Environment-dependent dissipation in quantum Brownian motion",
    Physical Review A 79, 052120 (2009) (10 pages).
    [PRA online, arXiv:0902.2813 (quant-ph)]
  6. H.-P. Breuer and J. Piilo,
    "Stochastic jump processes for non-Markovian quantum dynamics",
    Europhysics Letters 85, 50004 (2009) (5 pages).
    [EPL online, arXiv:0810.5511 (quant-ph)]
  7. L. Mazzola, S. Maniscalco, J. Piilo, K.-A. Suominen, and B. M. Garraway,
    "Sudden death and sudden birth of entanglement in common structured reservoirs",
    Physical Review A 79, 042302 (2009) (4 pages).
    [PRA online, arXiv:0812.3546 (quant-ph)]
  8. F. Francica, S. Maniscalco, J. Piilo, F. Plastina, K.-A. Suominen,
    "Off-resonant entanglement generation in a lossy cavity",
    Physical Review A 79, 032310 (2009) (10 pages).
    [PRA online, arXiv:0812.1886 (quant-ph)]
  9. M. Scala, B. Militello, A. Messina, J. Piilo, S. Maniscalco, and K.-A. Suominen,
    "Non-Markovian dynamics of cavity losses",
    International Journal of Quantum Information 7, 41 - 47 (2009).
    [IJQO online, arXiv:0805.2848 (quant-ph)]

2008

  1. J. Piilo, S. Maniscalco, K. Härkönen, and K.-A. Suominen "Non-Markovian quantum jumps",
    Physical Review Letters 100, 180402 (2008) (4 pages).
    [PRL online, arXiv:0706.4438 (quant-ph)]
  2. M. Scala, B. Militello, A. Messina, S. Maniscalco, J. Piilo, and K.-A. Suominen,
    "Population trapping due to cavity losses"
    ,
    Physical Review A 77, 043827 (2008) (4 pages).
    [PRA online, arXiv:0710.3701 (quant-ph)]

OTHER

K. Härkönen, S. Maniscalco, J. Piilo, K.-A. Suominen, and O. Vainio (eds.):
Book of Abstracts - CEWQO2009 - The 16th Central European Workshop on Quantum Optics
May 23-27, 2009, Turku, Finland
Report Series in Physics, University of Turku, Ser. L 32
ISSN 0788-9305, ISBN 978-951-29-3947-3, Uniprint, Turku, 2009, 189 pages.
PDF-file available.

PHD THESES

Olli Siltanen

Decoherence and Reservoir Engineering in Linear Optical Systems
Ph.D. thesis, June 2023
University of Turku, Faculty of Science, Department of Physics and Astronomy

Sina Hamedani Raja

Quantum Information Protocols and Thermodynamics with Open Quantum Systems
Ph.D. thesis, December 2020
University of Turku, Faculty of Science and Engineering, Department of Physics and Astronomy

Henri Lyyra

Controlling Dynamics of Open Quantum Systems
Ph.D. thesis, October 2019
University of Turku, Faculty of Science and Engineering, Department of Physics and Astronomy

Johannes Nokkala:

Quantum Complex Networks
Ph.D. thesis, December 2018
University of Turku, Faculty of Science and Engineering, Department of Physics and Astronomy

Antti Karlsson:

Memory Effects and Geometrical Considerations in Open Quantum Systems
Ph.D. thesis, June 2016
University of Turku, Faculty of Mathematics and Natural Sciences, Department of Physics and Astronomy

Kimmo Luoma:

Stochastic Descriptions and Memory Effects in Open Quantum Systems
Ph.D. thesis, January 2015
University of Turku, Faculty of Mathematics and Natural Sciences, Department of Physics and Astronomy

Elsi-Mari Laine:

Memory Effects in the Dynamics of Open Quantum Systems
Ph.D. thesis, September 2013
University of Turku, Faculty of Mathematics and Natural Sciences, Department of Physics and Astronomy

Kari Härkönen:

Studies on the Multifaceted Interaction of Atoms and an Electromagnetic Field
Ph.D. thesis, November 2010
University of Turku, Faculty of Mathematics and Natural Sciences, Department of Physics and Astronomy

Laura Mazzola:

Non-Markovianity and Quantum Correlations in Qubit-Systems
Ph.D. thesis, November 2010
University of Turku, Faculty of Mathematics and Natural Sciences, Department of Physics and Astronomy

MASTER THESES

Henri Lyyra:

Non-Markovian dynamics in quantum optical dephasing channels
M.Sc. thesis, October 2015
University of Turku, Faculty of Mathematics and Natural Sciences, Department of Physics and Astronomy

Kimmo Luoma:

Comparison of Monte Carlo Methods for non-Markovian Systems
M.Sc. thesis, May 2010
University of Turku, Faculty of Mathematics and Natural Sciences, Department of Physics and Astronomy

Elsi-Mari Laine:

Non-Markovian Dynamics of the Spin-Boson Model
M.Sc. thesis, May 2009
University of Turku, Faculty of Mathematics and Natural Sciences, Department of Physics and Astronomy