2011
O.P. Popovych, P.A. Tass: Macroscopic entrainment of periodically forced oscillatory ensembles; Progress in Biophysics and Molecular Biology 105, 98-108

B. Lysyansky, O.P. Popovych, P.A. Tass: Multi-frequency activation of neuronal networks by coordinated reset stimulation; Journal of the Royal Society Interface - Interface Focus. Published online (doi:10.1098/rsfs.2010.0010)

B. Lysyansky, O.P. Popovych, P.A. Tass: Desynchronizing anti-resonance effect of the m : n ON-OFF coordinated reset Stimulation; Journal of Neural Engineering 8, 036019

2010
P.A. Tass: Verlernen krankhafter Synchronisation mittels desynchronisierender Hirnstimulation; In: G. Schiepek (Hrsg.): Neurobiologie der Psychotherapie. 2. Auflage. Schattauer Verlag

P.A. Tass, D. Smirnov, A. Karavaev, U.B. Barnikol, T.T. Barnikol, I. Adamchic, C. Hauptmann, N. Pawelcyzk, M. Maarouf, V. Sturm, H.-J. Freund, B. Bezruchko: The causal relationship between subcortical local field potential oscillations and Parkinsonian resting tremor; Journal of Neural Engineering 7, 016009

T.T. Barnikol, N. Pawelczyk, U.B. Barnikol, J. Kuhn, D. Lenartz, V. Sturm, P.A. Tass, H.-J. Freund: Changes in apraxia after Deep Brain Stimulation of the nucleus basalis Meynert in a patient with Parkinson Dementia Syndrom; Movement Disorders 25 1519-20 

A. N. Silchenko, I. Adamchic, N. Pawelczyk, C. Hauptmann, M. Maarouf, V. Sturm, P. A. Tass: Data-driven approach to the estimation of connectivity and time delays in the coupling of interacting neuronal subsystems; Journal of Neuroscience Methods 191, 32–44

J.-P. Pfister, P.A. Tass: STDP in Oscillatory Recurrent Networks: Theoretical Conditions for Desynchronization and Applications to Deep-Brain Stimulation; Frontiers in Neuroscience Jul 30; 4. pii: 22

O.P. Popovych, P.A. Tass: Synchronization control of interacting oscillatory ensembles by mixed nonlinear delayed feedback; Physical Review E 82, 026204

C. Hauptmann, P.A. Tass: Restoration of segregated, physiological neuronal connectivity by desynchronizing stimulation; Journal of Neural Engineering 7, 056008

O.P. Popovych, V. Krachkovskyi, P.A. Tass: Phase-locking swallows in coupled oscillators with delayed feedback; Physical Review E 82, 046203

P. Perlikowski, S. Yanchuk, O. V. Popovych, P. A. Tass: Periodic patterns in a ring of delay-coupled oscillators; Physical Review E 82, 036208

Omel´chenko O, Maistrenko Y., P.A. Tass: Chimera states by induced by spatially modulated delayed feedback; Physical Review E 82, 066201

2009
P.A. Tass, C. Hauptmann, and O.V. Popovych: Brain pacemaker; In Meyers, Robert (Ed.) Encyclopedia of Complexity and System Science. Springer New York

C. Hauptmann, P.A. Tass: Cumulative and after-effects of short and weak coordinated reset stimulation - a modeling study; Journal of Neural Engineering 6, 016004

P.A. Tass, A. Silchenko, C. Hauptmann, U.B. Barnikol, E.-J. Speckmann: Long-lasting desynchronization in rat hippocampal slice induced by coordinated reset stimulation; Phys. Rev. E 80, 011902

P.A. Tass, C. Hauptmann: Anti-kindling achieved by stimulation targeting slow synaptic dynamics; Rest. Neurol. Neurosci., 27, 589-609

C. Hauptmann, J.-C. Roulet, J.J. Niederhauser, W. Döll, M.E. Kirlangic, B. Lysyansky, V. Krachkovskyi, M.A. Bhatti, U.B. Barnikol, L. Sasse, C.P. Bührle, E.-J. Speckmann, M. Götz, V. Sturm, H.-J. Freund, U. Schnell, and P. A. Tass: External trial deep brain stimulation device for the application of desynchronizing stimulation techniques; Journal of Neural Engineering 6, 066003

2008
A.N. Silchenko and P.A. Tass: Computational modeling of paroxysmal depolarization shifts in neurons induced by the glutamate release from astrocytes; Biol. Cybern. 98, 61-7

O. Omel’chenko, Y. Maistrenko, and P. A. Tass: Chimera states: the natural link between coherence and incoherence; Phys. Rev. Lett. 100, 044105

O. Omel‘chenko, C. Hauptmann, Y. Maistrenko, and P. A. Tass: Collective dynamics of globally coupled phase oscillators under multisite delayed feedback stimulation; Physica D 237, 365-384

U.B. Barnikol, O.V. Popovych, C. Hauptmann, V. Sturm, H.-J. Freund, P.A. Tass: Tremor entrainment by patterned low-frequency stimulation; Phil. Trans. Roy. Soc. A 366, 3545-3573

O. V. Popovych, C. Hauptmann, and P. A. Tass: Impact of nonlinear delayed feedback on synchronized oscillators; J. Biol. Phys. 34, 367-379

B. Lysyansky, Y. Maistrenko, and P. A. Tass: Co-existence of numerous synchronized and desynchronized states in a model of two phase oscillators coupled with delay; Int. J. Bif. Chaos Vol. 18, No. 6

B.P. Bezruchko, V.I. Ponomarenko, M.D. Prokhorov, D.A. Smirnov, and P.A. Tass: Modelling and diagnostic of coupling between nonlinear oscillatory systems from chaotic time series - applications to neurophysiology; Physics Uspekhi (Advances in Physical Sciences), Vol. 178, No. 3, 323-329

D.A. Smirnov, U.B. Barnikol, T.T. Barnikol, B.P. Bezruchko, C. Hauptmann, C. Bührle, M. Maarouf, V. Sturm, H.-J. Freund, and P.A. Tass: The Generation of Parkinsonian Tremor as Revealed by Directional Coupling Analysis; Europhysics Letters 83,20003

2007
P.A. Tass, C. Hauptmann, and O.V. Popovych: Control of Synchronization in Oscillatory Neural Networks; In: Handbook of Chaos Control, E. Schöll and H.G. Schuster (eds.) Wiley-VCH

J. Dammers, H. Mohlberg, F. Boers, P. A. Tass, K. Amunts, and K. Mathiak: A new toolbox for combining magnetoencephalographic source analysis and cytoarchitectonic probabilistic data for anatomical classification of dynamic brain activity; Neuroimage 34, 1577-1587

E. Palmero-Soler, K. Dolan, V. Hadamschek, and P.A. Tass: swLORETA: a novel approach to robust source localization and synchronization tomography; Phys. Med. Biol. 52, 1783–1800

P. A. Tass and C. Hauptmann: Therapeutic modulation of synaptic connectivity with desynchronizing brain stimulation; Int. J. Psychophysiol. 64, 53-61

C. Hauptmann and P. A. Tass : Therapeutic rewiring by means of desynchronizing brain stimulation; Biosystems 89, 173-181

H.-J. Freund, U.B. Barnikol, D. Nolte, H. Treuer, G. Auburger, P.A. Tass, M. Samii, V. Sturm: Subthalamic-thalamic DBS in a case with spinocerebellar ataxia type 2 (SCA2) and severe tremor - unusual clinical benefit; Mov. Dis. 22, 732-735

C. Hauptmann, O. V. Popovych, and P. A. Tass: Demand-controlled desynchronization of oscillatory networks by means of a multisite delayed feedback stimulation; Comput. Visual. Sci. 10, 71-78

Y.L. Maistrenko, B. Lysyansky, C. Hauptmann, O. Burylko, and P.A. Tass: Multistability in the Kuramoto model with synaptic plasticity; Phys. Rev. E 75, 066207

A.B. Neiman, D.F. Russell. T.A. Yakusheva, A. DiLullo, and P. A. Tass: Response clustering in transient stochastic synchronization and desynchronization of coupled neuronal bursters; Phys. Rev. E 76, 021908

O. V. Popovych, V. Krachkovskyi, and P. A. Tass: Twofold impact of delayed feedback on coupled oscillators; Int. J. Bif. Chaos 17, 2517–2530

E. Alonso-Prieto, U.B. Barnikol, E. Palmero-Soler, K. Dolan, G. Hesselmann, H. Mohlberg, K. Amunts, K. Zilles, M. Niedeggen, P.A. Tass: Timing of V1/V2 and V5+ activations during coherent motion of dots: an MEG study; Neuroimage 37, 1384-1395

C. Hauptmann, O. V. Popovych, and P. A. Tass: Desynchronizing the abnormally synchronized neural activity in the subthalamic nucleus: a modelling study; Expert Rev Med Devices 4, 633-650

K. Pyragas, O. V. Popovych, and P. A. Tass: Controlling synchrony in oscillatory networks with a separate stimulation-registration setup; Europhys. Lett. 80, 40002

C. Hauptmann, O. Omel‘chenko, O.V. Popovych, Y. Maistrenko, and P. A. Tass: Control of spatially patterned synchrony with multisite delayed feedback; Phys. Rev. E 76, 066209

2006
P. A. Tass and M. Majtanik: Long-term anti-kindling effects of desynchronizing brain stimulation: a theoretical study; Biol. Cybern. 94, 58-66

O. V. Popovych, C. Hauptmann, and P. A. Tass: Control of neuronal synchrony by nonlinear delayed feedback; Biol. Cybern. 95, 69-85

U.B. Barnikol, K. Amunts, J. Dammers, H. Mohlberg, T. Fieseler, A. Malikovic, K. Zilles, M. Niedeggen, P.A. Tass: Pattern reversal visual evoked responses of V1/V2 and V5/MT as revealed by MEG combined with probabilistic cytoarchitectonic maps; Neuroimage 31, 86–108

V. Krachkovskyi, O.V. Popovych, and P.A. Tass: Stimulus-locked responses of two phase oscillators coupled with delayed feedback; Phys. Rev. E 73, 066220

P. A. Tass and C. Hauptmann: Long-term anti-kindling effects induced by short-term, weak desynchronizing stimulation; Nonl. Phen. Compl. Syst. 9, 298-312

O. V. Popovych, C. Hauptmann, and P. A. Tass: Desynchronization and decoupling of interacting oscillators by nonlinear delayed feedback; International Journal of Bifurcation and Chaos 16, 1977-1987

P. A. Tass, C. Hauptmann, and O. V. Popovych: Development of therapeutic brain stimulation techniques with methods from nonlinear dynamics and statistical physics; International Journal of Bifurcation and Chaos 16, 1889-1911

M. Majtanik, K. Dolan and P.A. Tass: Desynchronization in networks of globally coupled neurons with dendritic dynamics; J. Biol. Phys. 32, 307-333

2005
O. V. Popovych, C. Hauptmann, and P. A. Tass: Effective Desynchronization by Nonlinear Delayed Feedback; Physical Review Letters 94, 164102

C. Hauptmann, O. Popovych, P.A. Tass: Effectively desynchronizing deep brain stimulation based on a coordinated delayed feedback stimulation via several sites: a computational study; Biological Cybernetics 93, 463-470

C. Hauptmann, O. Popovych, P.A. Tass: Delayed feedback control of synchronization in locally coupled neuronal networks; Neurocomputing 65-66, 759-767

Y. Zhai, I. Z. Kiss, P.A. Tass, and J. L. Hudson: Desynchronization of coupled electrochemical oscillators with pulse stimulations; Physical Review E 71, 065202-1-4

K. Dolan, M. Majtanik, P.A. Tass: Phase resetting and transient desynchronization in networks of globally coupled phase oscillators with inertia; Physica D 211, 128–138

O. Popovych, Y.L. Maistrenko, P.A. Tass : Phase chaos in coupled oscillators; Phys. Rev. E 71, 065201-1-4(R)

C. Hauptmann, O. Popovych, P. A. Tass: Multisite coordinated delayed feedback for an effective desynchronization of neuronal networks; Stochastics and Dynamics 5(2), 307–319

Peter A. Tass: Estimation of the transmission time of stimulus-locked responses: modelling and stochastic phase resetting analysis; Phil. Trans. R. Soc. B  360, 995-999

Yu. Maistrenko, O. Popovych, P.A. Tass: Chaotic attractor in the Kuramoto model; International Journal of Bifurcation and Chaos 15, 3457-3466

2004
P.A. Tass: Stochastic analyses of neural systems. In: Scott A. (Ed.): Encyclopedia of Nonlinear Science, Fitzroy Dearborn Publishers, London

P. A. Tass: Transmission Times of Stimulus-Locked Responses of Oscillators cannot be Estimated by Averaging Across Trials; Fluctuation and Noise Letters 4, No.1, L119-L128

P. A. Tass: Transmission of stimulus-locked responses in two coupled phase oscillators; Phys. Rev. E 69, 051909-1-24

P. A. Tass: Transmission of stimulus-locked responses in two oscillators with bistable coupling; Biol. Cybern. 91, 203-211

Yu. Maistrenko, O. Popovych, O. Burylko, P.A. Tass: Mechanism of Desynchronization in the Finite-Dimensional Kuramoto Model; Phys. Rev. Lett. 93, 084102-1-4

2003
P. A. Tass, T. Fieseler, J. Dammers, K. Dolan, P. Morosan, M. Majtanik, F. Boers, A. Muren, K. Zilles, and G. R. Fink: Synchronization Tomography: A Method for Three-Dimensional Localization of Phase Synchronized Neuronal Populations in the Human Brain using Magnetoencephalography; Phys. Rev. Lett. 90 (8), 088101-1-4

P. A. Tass: Stochastic phase resetting of stimulus-locked responses of two coupled oscillators: Transient response clustering, synchronization, and desynchronization; Chaos 13 (1), 364-376

P. A. Tass: Stochastic phase resetting of two coupled phase oscillators stimulated at different times; Phys. Rev. E 67, 051902-1-15

P.A. Tass, J. Klosterkötter, F. Schneider, D. Lenartz, A. Koulousakis and V. Sturm: Obsessive-Compulsive Disorder: Development of Demand-Controlled Deep Brain Stimulation with Methods from Stochastic Phase Resetting; Neuropsychopharmacology 28, S27-S34

P. A. Tass: A model of desynchronizing deep brain stimulation with a demand-controlled coordinated reset of neural subpopulations; Biol. Cybern. 89, 81-88

P. A. Tass: Desynchronization by Means of a Coordinated Reset of Neural Sub-Populations - A Novel Technique for Demand-Controlled Deep Brain Stimulation; Progress of Theoretical Physics Supplement 150, 281-296

P. A. Tass: Development of Bipolar Deep Brain Stimulation Techniques Based on Stochastic Phase Resetting; Nova Acta Leopoldina NF 88, Nr. 332, 207-224

L. Cimponeriu,  M.G. Rosenblum, T. Fieseler, J. Dammers, M. Schiek, M. Majtanik, P. Morosan, A. Bezerianos  and P. A. Tass: Inferring asymmetric relations between interacting neuronal oscillators.; Progress of Theoretical Physics Supplement 150, 22-36

2002
P. A. Tass: Effective desynchronization with a stimulation technique based on soft phase resetting; Europhys. Lett. 57 (2), 164-170

P. A. Tass: Desynchronization of brain rhythms with soft phase-resetting techniques; Biol. Cybern. 87, 102-115

P. A. Tass: Effective desynchronization with bipolar double-pulse stimulation; Phys. Rev. E 66, 036226-1-9 (2002)

P. A. Tass: Stimulus-locked transient phase dynamics, synchronization and desynchronization of two oscillators; Europhys. Lett. 59 (2), 199-205

P. A. Tass: Synergetics of the Nervous System: from Basic Principles to Therapy; Nonl. Phen. Compl. Syst. 5 (4), 470-478

2001
P. A. Tass: Effective desynchronization by means of double-pulse phase resetting; Europhys. Lett. 53 (1), 15-21

P. A. Tass: Desynchronizing double-pulse phase resetting and application to deep brain stimulation; Biol. Cybern. 85, 343-354

P. A. Tass: Effective desynchronization with a resetting pulse train followed by a single pulse; Europhys. Lett. 55 (2), 171-177

2000
M.G. Rosenblum, A.S. Pikovsky, C. Schäfer, J. Kurths, P.A. Tass: Phase Synchronization: From Theory to Data Analysis. In: Moss F. (Ed.): Handbook of Biological Physics, Elsevier

P.A. Tass: Stochastic phase resetting: a theory for deep brain stimulation; Prog. Theor. Phys. Suppl. (Kyoto) 139, 301-313

J. Gross, P.A. Tass, S. Salenius, R. Hari, H.-J. Freund, A. Schnitzler: Cortico-muscular synchronization during isometric muscle contraction in humans as revealed by magnetoencephalography; J. Physiol. 527.3, 623-631

1999
K.M. Stephan, F. Binkofski, U. Halsband, C. Dohle, G. Wunderlich, A. Schnitzler, P.A. Tass, S. Posse, H. Herzog, V. Sturm, K. Zilles, R.J. Seitz,

H.-J. Freund: The role of ventral medial wall motor areas in bimanual coordination; Brain 122, 351-368

P. A. Tass: Phase resetting in medicine and biology: Stochastic modelling and data analysis; Springer Verlag, Berlin

1998
M.G. Rosenblum, J. Kurths, A.S. Pikovsky, C. Schäfer, P.A. Tass, and H.-H. Abel: Synchronization in Noisy Systems and Cardiorespiratory Interaction; IEEE Eng. In Medicine and Biology Magazine 17 (6), 46-53

P.A. Tass, M.G. Rosenblum, J. Weule, J. Kurths, A. Pikovsky, J. Volkmann, A. Schnitzler, and H.-J. Freund: Detection of n:m Phase Locking from Noisy Data: Application to Magnetoencephalography; Phys. Rev. Lett. 81 (15), 3291-3294

1997
P. A. Tass: Oscillatory Cortical Activity during Visual Hallucinations; J. Biol. Phys. 23, 21-66

P.A. Tass: Phase and frequency shifts in a population of phase oscillators; Phys. Rev. E 56 (2), 2043-2060 

1996
P.A. Tass, H. Haken: Synchronization in networks of limit cycle oscillators; Z. Phys. B 100, 303-320

P.A. Tass: Resetting Biological Oscillators – A Stochastic Approach; J. Biol. Phys. 22, 27-64

P.A. Tass, H. Haken: Synchronized oscillations in the visual cortex – a synergetic model; Biol. Cybern. 74, 31-39

P.A. Tass: Phase Resetting Associated with Changes of Burst Shape; J. Biol. Phys. 22 , 125-155

P.A. Tass, J. Kurths, M.G. Rosenblum, G. Guasti, and H. Hefter: Delay-induced transitions in visually guided movements; Phys. Rev. E 54 (3), R2224-R2227