• Ring, P., Keil, J., Muthuraman, M., Wolff, S., Bergmann, T. O., Probst, C., et al. (2021). Oscillatory brain activity associated with skin conductance responses in the context of risk. Journal of Neurophysiology.
  • Moran, J. K., Keil, J., Masurovsky, A., Gutwinski, S., Montag, C., & Senkowski, D. (2021). Multisensory Processing Can Compensate for Top-Down Attention Deficits in Schizophrenia. Cerebral Cortex.
  • Michail, G., Toran Jenner, L., & Keil, J. (2021). Prestimulus alpha power but not phase influences visual discrimination of long-duration visual stimuli. The European Journal of Neuroscience.
  • Michail, G., Senkowski, D., Niedeggen, M., & Keil, J. (2021). Memory Load Alters Perception-Related Neural Oscillations during Multisensory Integration. The Journal of Neuroscience : the Official Journal of the Society for Neuroscience, 41(7), 1505–1515.



  • Speer, L., Schuler, M., Keil, J., Moran, J. K., Pantazidis, P., Amelung, T., et al. (2020). Sexual preference for prepubescent children is associated with enhanced processing of child faces in juveniles. European Child & Adolescent Psychiatry, 1–14.
  • Kaiser, M., Senkowski, D., & Keil, J. (2020). Mediofrontal theta‐band oscillations reflect top‐down influence in the ventriloquist illusion. Human Brain Mapping, 31(1), 1–15.
  • Wooldridge, J., Kaiser, M., Romero, Y. R., Riecke, L., Keil, J., & Senkowski, D. (2020). Low-frequency oscillations reflect aberrant tone restoration during the auditory continuity illusion in schizophrenia. Scientific Reports, 1–10.
  • Keil, J. (2020). Double Flash Illusions: Current Findings and Future Directions. Frontiers in Neuroscience, 14, 298. 
  • Biehl, S. C., Keil, J., Naumann, E., & Svaldi, J. (2020). ERP and oscillatory differences in overweight/obese and normal-weight adolescents in response to food stimuli, 1–11.



  • Moran, J. K., Michail, G., Heinz, A., Keil, J., & Senkowski, D. (2019). Long-Range Temporal Correlations in Resting State Beta Oscillations are Reduced in Schizophrenia. Frontiers in Psychiatry, 10, 100–10.
  • Kaiser, M., Senkowski, D., Busch, N. A., Balz, J., & Keil, J. (2019). Single trial prestimulus oscillations predict perception of the sound-induced flash illusion. Scientific Reports, 9(1), 5983.



  • Keil, J., & Senkowski, D. (2018). Neural Oscillations Orchestrate Multisensory Processing. The Neuroscientist, 24(6), 609–626.
  • Kaiser, M., Senkowski, D., Roa Romero, Y., Riecke, L., & Keil, J. (2018). Reduced low-frequency power and phase locking reflect restoration in the auditory continuity illusion. The European Journal of Neuroscience, 48(8), 2849–2856.
  • Michail, G., & Keil, J. (2018). High cognitive load enhances the susceptibility to non-speech audiovisual illusions. Scientific Reports, 8(1), 11530.
  • Balz, J., Roa Romero, Y., Keil, J., Schubert, F., Ittermann, B., Mekle, R., et al. (2018). Glutamate Concentration in the Superior Temporal Sulcus Relates to Neuroticism in Schizophrenia. Frontiers in Psychology, 9, 202–11.



  • Keil, J., Pomper, U., Feuerbach, N., & Senkowski, D. (2017). Temporal orienting precedes intersensory attention and has opposing effects on early evoked brain activity. NeuroImage, 148, 230–239.
  • Keil, J., & Senkowski, D. (2017). Individual alpha frequency relates to the sound-induced flash illusion. Multisensory Research, 30(6), 565–578.



  • Balz, J., Roa Romero, Y., Keil, J., Krebber, M., Niedeggen, M., Gallinat, J., & Senkowski, D. (2016). Beta/Gamma Oscillations and Event-Related Potentials Indicate Aberrant Multisensory Processing in Schizophrenia. Frontiers in Psychology, 7(281), 106.
  • Roa Romero, Y., Keil, J., Balz, J., Gallinat, J., & Senkowski, D. (2016). Reduced frontal theta oscillations indicate altered crossmodal prediction error processing in schizophrenia. Journal of Neurophysiology, 116(3), 1396–1407.
  • Keil, J., Roa Romero, Y., Balz, J., Henjes, M., & Senkowski, D. (2016). Positive and Negative Symptoms in Schizophrenia Relate to Distinct Oscillatory Signatures of Sensory Gating. Frontiers in Human Neuroscience, 10(75), 639.
  • Balz, J., Keil, J., Romero, Y. R., Mekle, R., Schubert, F., Aydin, S., et al. (2016). GABA concentration in superior temporal sulcus predicts gamma power and perception in the sound-induced flash illusion. NeuroImage, 125(C), 724–730.
  • Keil, J., Pomper, U., & Senkowski, D. (2016). Distinct patterns of local oscillatory activity and functional connectivity underlie intersensory attention and temporal prediction. Cortex, 74, 277–288.
  • Roa Romero, Y., Keil, J., Balz, J., Niedeggen, M., Gallinat, J., & Senkowski, D. (2016). Alpha-Band Oscillations Reflect Altered Multisensory Processing of the McGurk Illusion in Schizophrenia. Frontiers in Human Neuroscience, 10, 41.



  • Krebber, M., Harwood, J., Spitzer, B., Keil, J., & Senkowski, D. (2015). Visuotactile motion congruence enhances gamma-band activity in visual and somatosensory cortices. NeuroImage, 117, 160–169.
  • Pomper, U., Keil, J., Foxe, J. J., & Senkowski, D. (2015). Intersensory selective attention and temporal orienting operate in parallel and are instantiated in spatially distinct sensory and motor cortices. Human Brain Mapping, 36(8), 3246–3259.
  • Roa Romero, Y., Senkowski, D., & Keil, J. (2015). Early and late beta-band power reflect audiovisual perception in the McGurk illusion. Journal of Neurophysiology, 113(7), 2342–2350.



  • Lange, J., Keil, J., Schnitzler, A., Van Dijk, H., & Weisz, N. (2014). The role of alpha oscillations for illusory perception. Behavioural Brain Research, 271, 294–301.
  • Keil, J., Müller, N., Hartmann, T., & Weisz, N. (2014). Prestimulus beta power and phase synchrony influence the sound-induced flash illusion. Cerebral Cortex, 24(5), 1278–1288.
  • Leske, S., Tse, A., Oosterhof, N. N., Hartmann, T., Müller, N., Keil, J., & Weisz, N. (2014). The strength of alpha and beta oscillations parametrically scale with the strength of an illusory auditory percept. NeuroImage, 88, 69–78.
  • Keil, J., Timm, J., SanMiguel, I., Schulz, H., Obleser, J., & Schonwiesner, M. (2014). Cortical brain states and corticospinal synchronization influence TMS-evoked motor potentials. Journal of Neurophysiology, 111(3), 513–519.
  • Timm, J., SanMiguel, I., Keil, J., Schröger, E., & Schönwiesner, M. (2014). Motor Intention Determines Sensory Attenuation of Brain Responses to Self-initiated Sounds. Journal of Cognitive Neuroscience, 10, 1–9.



  • Müller, N., Keil, J., Obleser, J., Schulz, H., Grunwald, T., Bernays, R.-L., et al. (2013). You can't stop the music: Reduced auditory alpha power and coupling between auditory and memory regions facilitate the illusory perception of music during noise. NeuroImage, 79(C), 383–393.
  • Schulz, H., Ubelacker, T., Keil, J., Muller, N., & Weisz, N. (2013). Now I am Ready--Now I am not: The Influence of Pre-TMS Oscillations and Corticomuscular Coherence on Motor-Evoked Potentials. Cerebral Cortex.



  • Keil, J., Müller, N., Ihssen, N., & Weisz, N. (2012). On the variability of the McGurk effect: audiovisual integration depends on prestimulus brain states. Cerebral Cortex, 22(1), 221–231.



  • Adenauer, H., Catani, C., Gola, H., Keil, J., Ruf, M., Schauer, M., & Neuner, F. (2011). Narrative exposure therapy for PTSD increases top-down processing of aversive stimuli - evidence from a randomized controlled treatment trial. BMC Neuroscience, 12(1), 127.



  • Adenauer, H., Pinösch, S., Catani, C., Gola, H., Keil, J., Kissler, J., & Neuner, F. (2010). Early processing of threat cues in posttraumatic stress disorder-evidence for a cortical vigilance-avoidance reaction. Biological Psychiatry, 68(5), 451–458.
  • Keil, J., Weisz, N., Paul-Jordanov, I., & Wienbruch, C. (2010). Localization of the magnetic equivalent of the ERN and induced oscillatory brain activity. NeuroImage, 51(1), 404–411.
  • Adenauer, H., Catani, C., Keil, J., Aichinger, H., & Neuner, F. (2010). Is freezing an adaptive reaction to threat? Evidence from heart rate reactivity to emotional pictures in victims of war and torture. Psychophysiology, 47(2), 315–322.



  • Catani, C., Adenauer, H., Keil, J., Aichinger, H., & Neuner, F. (2009). Pattern of cortical activation during processing of aversive stimuli in traumatized survivors of war and torture. European Archives of Psychiatry and Clinical Neuroscience, 259(6), 340–351.
  • Schlee, W., Mueller, N., Hartmann, T., Keil, J., Lorenz, I., & Weisz, N. (2009). Mapping cortical hubs in tinnitus. BMC Biology, 7(1), 80.
  • Keil, J., Adenauer, H., Catani, C., & Neuner, F. (2009). Imaging cortical activity following affective stimulation with a high temporal and spatial resolution. BMC Neuroscience, 10, 83.