Publications in peer reviewed journals
Händel B, Jensen, O. (2014). Spontaneous local alpha oscillations predict motion-induced blindness. European Journal of Neuroscience, 40 (9), 3371-3379.
Zizlsperger L, Sauvigny T, Händel B, Haarmeier T. (2014) Cortical representations of confidence in a visual perceptual decision. Nature communications, 5:3940.
van Leeuwen TM, Hagoort P, Händel B. (2013) Real color captures attention and overrides spatial cues in grapheme-color synesthetes but not in controls. Neuropsychologia, 51 (10), 1802-1813.
Händel B, Haarmeier, T, Jensen, O. (2011). Alpha Oscillations Correlate with the Successful Inhibition of Unattended Stimuli. Journal of Cognitive Neuroscience 23(9), 2494–2502.
Haegens S., Händel B, Jensen O. (2011) Top-Down Controlled Alpha Band Activity in Somatosensory Areas Determines Behavioral Performance in a Discrimination Task, The Journal of Neuroscience, 31(14):5197–5204.
Händel B, Thier P, Haarmeier T. (2009) Visual Motion Perception Deficits Due to Cerebellar Lesions Are Paralleled by Specific Changes in Cerebro-Cortical Activity. The Journal of Neuroscience, 29 (48): 15126 –33.
Händel B, Haarmeier T. (2009) Cross- frequency coupling of brain oscillations indicates the success in visual motion discrimination. Neuroimage, 45: 1040–1046.
Händel B, Lutzenberger W, Thier P, Haarmeier T. (2008) Selective Attention Increases the Dependency of Cortical Responses on Visual Motion Coherence in Man. Cerebral Cortex, 18: 2902-2908.
Händel B, Lutzenberger W, Thier P, Haarmeier T. (2007) Opposite dependencies on visual motion coherence in human area MT+ and early visual cortex. Cererbal Cortex, 17(7):1542-9.
Tikhonov A*, Händel B*, Haarmeier T, Lutzenberger W, Thier P. (2007) Gamma oscillations underlying the visual motion after-effect. Neuroimage, 38: 708-719.
Røskaft E, Händel B, Bjerke T, Kaltenborn BP. (2007) Human attitudes towards large carnivores in Norway. Wildlife Biology, 13: 172-185.
* shared first authorship
Invited Talks and Symposia:
B. Händel (2016) How oscillatory brain activity helps to understand perception, Neurobiologisches Montagscolloquium, Universität Tübingen, Vortrag
B. Händel (2014) Exploring >200 Hz field potentials with microelectrodes, ECoG and MEG, Max-Planck retreat, Ringberg, Vortrag
B. Händel (2013) How an idling rhythm grew to shape our perception. Workshop: “Alpha: from Mechanism to Cognition” am Ernst Strüngmann Institute (ESI) for Neuroscience, Vortrag
B. Händel (2010) Oscillatory Brain Activity: From Raw Data to Group Averages Using Beamformer Approaches. Human Brain Mapping (HBM), Barcelona (Spanien), Vortrag
O. Jensen, B. Händel (2010). Shaping functional architecture by oscillatory alpha activity. Federation of European Neuroscience Societies (FENS), Amsterdam (Niederlande), Symposium
B. Händel (2010) Cross - frequency coupling of brain oscillations. BIOMAG – 17th international Conference on Biomagnetism, Dubrovnik (Kroatien), Symposium/ Vortrag
B. Händel (2010) From real to illusionary - how oscillations can predict perception. Universität Leipzig, Vortrag
B. Händel (2010) Modulation of broadband high frequency oscillations in human MEG activity, BIC, Universität Frankfurt
B. Händel (2010) Cross-frequency coupling, New York University (USA), Vortrag
B. Händel (2010) From real to illusionary - how oscillations can predict perception, University Maastricht (Niederlande), Vortrag
B. Händel (2009) Cross - frequency coupling of brain oscillations in the neocortex. Brain Waves, Lorentz Center, Leiden (Niederlande), Vortrag
B. Händel, O. Jensen (2009) Human Alpha Band Activity Reflects Resource Allocation by Disengaging Task-Irrelevant Areas. Society for psychophysiological research meeting (SPR), Berlin, Vortrag
B. Händel (2009) How oscillations can predict perceptual performance. Hertie Institute Tübingen, Vortrag
B. Händel (2009) Can brain oscillation shed light on the mechanism of synesthesia?, F.C.Donders Centre for Cognitive Neuroimaging, Nijmegen, Niederlande, Vortrag
B. Händel (2009) How can attention improve perception? Signal detection vs. stochastic resonance, F.C.Donders Centre for Cognitive Neuroimaging, Nijmegen (Niederlande), Vortrag
B. Händel (2008) Conscious percept and unconscious attention? – MIB and its underlying brain oscillations, F.C.Donders Centre for Cognitive Neuroimaging, Nijmegen (Niederlande), Vortrag
B. Händel (2008) Functional correlates of the physical and perceptual properties of visual motion in humans, UCL - London (England), Vortrag
B. Händel , T. Haarmeier (2005) Contributions of the cerebellum to visual motion perception, Hertie Institute Tübingen, Vortrag
B. Händel , T. Haarmeier (2005) Attention can improve motion perception – yet how?, Uni-Klinik Tübingen, Vortrag
Posters:
B. Händel, P. Fries (2015) Power and frequency of human visually induced gamma-band activity reflects retinal but not perceived stimulus speed. Soc Neurosci Abstr 207.04.
B. Händel, T. Womelsdorf, C. Bosman, P. Fries (2014) Exploring 200-1000 Hz field potentials with microelectrodes, ecog and meg. Soc Neurosci Abstr 11584.
B. Händel, O. Jensen (2010) Brain oscillations predict illusory visual disappearance as observed in motion induced blindness. HBM
B. F. Händel, T.M. van Leeuwen, O. Jensen, P. Hagoort (2010) Lateralization of alpha oscillations in grapheme-color synaesthetes suggests altered color processing. FENS
B. Händel, T. Haarmeier, O. Jensen (2009) Prestimulus alpha power lateralization in visual cortex predicts performance in the unattended hemifield. Soc Neurosci Abstr 757.10.
B. Haendel, P. Thier, T. Haarmeier, (2008) Cerebellar lesions induce changes in visual motion adaptation as measured by the visual motion aftereffect. Soc Neurosci Abstr 460.14.
B. Händel, W. Lutzenberger, P. Thier, T. Haarmeier (2007) Attention modulates low frequency oscillations reflecting signal-to-noise characteristics in a visual motion discrimination task. In proceedings of the 10th Tübingen Perception Conference: H. Bülthoff, A. Chatziastros, H. Mallot and R. Ulrich (Ed.).
S. Dash, B. F. Händel, W. Lutzenberger, P. Thier, T. Haarmeier, (2007) The amount of inter-frequency coupling between gamma and slow oscillations indicates performance in a visual motion discrimination task - a human MEG study. Soc Neurosci Abstr 715.29
B. Händel, T. Haarmeier, (2006) Spatial Attention can increase the signal to noise ratio of MEG responses elicited by visual motion. 5th Forum of european neuroscience A216.9.
B. Händel, W. Lutzenberger, P. Thier, T. Haarmeier, (2005) Functional correlates of visual motion discrimination deficits in patients with cerebellar damage. Soc Neurosci Abstr 619.7.
A. Tikhonov, T. Haarmeier, W. Lutzenberger, B. Händel, P. Thier, (2004) Cerebellar gamma-band activity correlates with the size of the visual motion aftereffect. In proceedings of the 7th Tübingen Perception Conference: H. Bülthoff, H. Mallot, R. Ulrich and F. Wichman (Ed.).
B. Händel, W. Lutzenberger, P. Thier, T. Haarmeier, (2004) Functional correlates of perceptual decision making in a visual motion discrimination task in man. Soc Neurosci Abstr 526.7.
B. Händel, W. Lutzenberger, A. Tikhonov, P. Thier, T. Haarmeier, (2003) Neuromagnetic activity in humans correlates with visual motion coherence. Soc Neurosci Abstr 591.15.
A. Tikhonov, T. Haarmeier, W. Lutzenberger, B. Händel, P. Thier, (2003) Gamma-band activity recorded from the cerebellum is correlated with the size of the visual motion aftereffect. Soc Neurosci Abstr 591.13.
