Samaha J, Iemi L, Haegens S & Busch NA. (2020) Spontaneous brain oscillations and perceptual decision-making. Trends in Cognitive Sciences, in press.

Haegens S. (2020) Entrainment revisited: a commentary on Meyer, Sun & Martin (2020). Language, Cognition and Neuroscience.

Dikker S*, Haegens S*, Bevilacqua D, Davidesco I, Wan L, Kaggen L, McClintock J, Chaloner K, Ding M, West T, & Poeppel D. (2020) Morning brain: Real-world neural evidence that high school class times matter. PsyArXiv, 1-22.

Wilsch A, Mercier M, Schroeder, CE, Obleser J, & Haegens S. (2020) Spatio-temporal attention exerts differential effects in visual and auditory discrimination. Journal of Cognitive Neuroscience.

Zhou YJ, Pérez-Bellido A, Haegens S, de Lange FP. (2020) Perceptual expectations modulate low-frequency activity: A statistical learning magnetoencephalography study. Journal of Cognitive Neuroscience, 32(4), 691-702.

Barczak A, Haegens S, Ross DA, McGinnis T, Lakatos P, & Schroeder CE. (2019) Dynamic modulation of cortical excitability during visual active sensing. Cell Reports, 27(12), 3447-3459. (link)

Iemi L, Busch NA, Laudini A, Haegens S, Samaha J, Villringer A, & Nikulin VV. (2019) Multiple mechanisms link prestimulus neural oscillations to sensory responses. eLife, 8:e43620. (link)

Haegens S & Zion-Golumbic E. (2018) Rhythmic facilitation of sensory processing. Neuroscience and Biobehavioral Reviews, 86, 150-165. link)

Haegens S, Vergara J, Rossi-Pool R, Lemus L, & Romo R. (2017) Beta oscillations reflect supramodal information during perceptual judgment. PNAS, 114(52), 13810-13815. (link)

Spitzer B & Haegens S. (2017) Beyond the Status Quo: A role for beta oscillations in endogenous content (re)activation. eNeuro 4(4), ENEURO.0170-17.2017. (pdf)

Sherman M, Lee S, Law R, Haegens S, Thorn C, Hämäläinen M, Moore CI, Jones SR. (2016) Neural mechanisms of transient neocortical beta rhythms: Converging evidence from humans, computational modeling, monkeys, and mice. PNAS, 113(33), E4885–E4894. (pdf)

Herrmann B, Henry MJ, Haegens S, & Obleser J. (2016) Temporal expectations and neural amplitude fluctuations in auditory cortex interactively influence perception. NeuroImage, 124, 487-497. (link)

Haegens S, Barczak A, Musacchia G, Lipton ML, Mehta AD, Lakatos P, & Schroeder CE. (2015) Laminar profile and physiology of the alpha rhythm in primary visual, auditory and somatosensory regions of neocortex. Journal of Neuroscience, 35(42), 14341-14352. (pdf)

Okazaki YO, De Weerd P, Haegens S, & Jensen O. (2014) Hemispheric lateralization of posterior alpha reduces distracter interference during face matching. Brain Research. (link)

Cousijn H, Haegens S, Wallis G, Near J, Stokes MG, Harrison PJ, & Nobre AC. (2014) Resting GABA and glutamate concentrations do not predict visual gamma frequency or amplitude. PNAS, 111(25), 9301-9306. (pdf)

Haegens S, Vázquez Y, Zainos A, Alvarez M, Jensen O, & Romo R. (2014) Thalamocortical rhythms during a vibrotactile detection task. PNAS, 111(17), E1797–E1805. (pdf)

Haegens S, Cousijn H, Wallis G, Harrison PJ, & Nobre AC. (2014) Inter- and intra-individual variability in alpha peak frequency. NeuroImage, 92, 46-55. (pdf)

Schroeder CE, Herrero JL, & Haegens S. (2014) Neuronal dynamics and the mechanistic bases of selective attention. In: The Oxford handbook of attention, AC. Nobre & S. Kastner (Eds.), pp 472-508. Oxford: Oxford University Press. (link to book)

Haegens S, Luther L, & Jensen O. (2012) Somatosensory anticipatory alpha activity increases to suppress distracting input. Journal of Cognitive Neuroscience, 24(3), 677-685. (pdf)

Haegens S, Nácher V, Luna R, Romo R, & Jensen O. (2011) Alpha oscillations in the monkey sensorimotor network influence discrimination performance by rhythmical inhibition of neuronal spiking. PNAS, 108(48), 19377–19382. (pdf)

Haegens S, Nácher V, Hernández A, Luna R, Jensen O, & Romo R. (2011) Beta oscillations in the monkey sensorimotor network reflect somatosensory decision making. PNAS, 108(26), 10708–10713. (pdf)

Haegens S, Händel B, & Jensen O. (2011) Top-down controlled alpha band activity in somatosensory areas determines behavioral performance in a discrimination task. Journal of Neuroscience, 31(14), 5197-5204. (pdf)

Haegens S, Osipova D, Oostenveld R, & Jensen O. (2010) Somatosensory working memory performance depends on both engagement and disengagement of regions in a distributed network. Human Brain Mapping, 31(1), 26-35. (link)

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