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EEG/ERP in the same session

Alpert, G. F., Manor, R., Spanier, A. B., Deouell, L. Y., & Geva, A. B. (2014). Spatiotemporal Representations of Rapid Visual Target Detection: A Single-Trial EEG Classification Algorithm. IEEE Transactions on Biomedical Engineering, 61, 2290-2303.

Banerjee, S., Snyder, A. C., Molholm, S., & Foxe, J. J. (2011). Oscillatory Alpha-band mechanisms and the deployment of spatial attention to anticipated auditory and visual target locations: Supramodal or sensory-specific control mechanisms? Journal of Neuroscience, 31, 9923-9932.

Belyusar, D., Snyder, A. C., Frey, H.-P., Harwood, M. R., Wallman, J., & Foxe, J. J. (2013). Oscillatory alpha-band suppression mechanisms during the rapid attentional shifts required to perform an anti-saccade task. NeuroImage, 65, 395-407.

Castellano, M., Plöchl, M., Vicente, R., & Pipa, G. (2014). Neuronal oscillations form parietal/frontal networks during contour integration. Frontiers in Integrative Neuroscience, 8, 64. doi:10.3389/fnint.2014.00064.

Collins, T., Heed, T., & Röder, B. (2010). Visual target selection and motor planning define attentional enhancement at perceptual processing stages. Frontiers in Human Neuroscience. 4:14. doi:10.3389/neuro.09.014.2010.

Dambacher, M., & Kliegl, R. (2007). Synchronizing timelines: Relations between fixation durations and N400 amplitudes during sentence reading. Brain Research, 1155, 147-162.

Dandekar, S., Ding, J., Privitera, C., Carney, T., & Klein, S. A. (2012). The fixation and saccade P3. PLoS ONE 7(11): e48761. doi:10.1371/journal.pone.0048761.

Dandekar, S., Privitera, C., Carney, T., & Klein, S. A. (2012). Neural saccadic response estimation during natural viewing. Journal of Neurophysiology, 107, 1776 - 1790.

de Lissa, P., McArthur, G., Hawelka, S., Palermo, R., Mahajan, Y., & Hutzler, F. (2014). Fixation location on upright and inverted faces modulates the N170, Neuropsychologia, 57, 1-11.

Dias, J. C., Sajda, P., Dmochowski, J. P., & Parra, L. C. (2013). EEG precursors of detected and missed targets during free-viewing search. Journal of Vision, 13(13):13, 1-19, http://www.journalofvision.org/content/13/13/13, doi:10.1167/13.13.13.

Diederich, A., Schomburg, A., & van Vugt, M. (2014). Fronto-Central Theta Oscillations Are Related to Oscillations in Saccadic Response Times (SRT): An EEG and Behavioral Data Analysis. PLoS ONE 9(11): e112974. doi:10.1371/journal.pone.0112974.

Fiebelkorn, I. C., Snyder, A. C., Mercier, M. R., Butler, J. S., Molholm, S., & Foxe, J. J. (2013). Cortical cross-frequency coupling predicts perceptual outcomes. NeuroImage, 69, 126-137.

Fischer, T., Graupner, S.-T., Velichkovsky, B.M., & Pannasch, S. (2013). Attentional dynamics during free picture viewing: Evidence from oculomotor behavior and electrocortical activity. Frontiers in Systems Neuroscience, 7:17. doi: 10.3389/fnsys.2013.00017.

Franconeri, S. L., Scimeca, J. M., Roth, J. C., Helseth, S. A., & Kahn, L. E. (2012). Flexible visual processing of spatial relationships. Cognition, 122, 210-227.

Frey, A., Ionescu, G., Lemaire, B., López-Orozco, F., Baccino, T., & Guérin-Dugué, A. (2013). Decision-making in information seeking on texts: an eye-fixation-related potentials investigation. Frontiers in Systems Neuroscience, 7:39. doi: 10.3389/fnsys.2013.00039.

Frey, H.-P., Kelly, S. P., Lalor, E. C., & Foxe, J. J. (2010). Early spatial attentional modulation of inputs to the fovea. Journal of Neuroscience, 30, 4547-4551.

Frey, H.-P., Molholm, S., Lalor, E. C., Russo, N. N., & Foxe, J. J. (2013). Atypical cortical representation of peripheral visual space in children with an autism spectrum disorder. European Journal of Neuroscience, 38, 2125-2138.

Frey, H.-P., Schmid, A. M., Murphy, J. W., Molholm, S., Lalor, E. C., & Foxe, J. J. (2014). Modulation of early cortical processing during divided attention to non-contiguous locations. European Journal of Neuroscience, 39, 1499-1507.

Gais, S., Köster, S., Sprenger, A., Bethke, J., Heide, W., & Kimmig, H. (2008). Sleep is required for improving reaction times after training on a procedural visuo-motor task. Neurobiology of Learning and Memory, 90, 610-615.

Graupner, S.-T., Pannasch, S., & Velichkovsky, B. M. (2011). Saccadic context indicates information processing within visual fixations: Evidence from event-related potentials and eye-movements analysis of the distractor effect. International Journal of Psychophysiology, 80, 54-62.

Graupner, S.-T., Velichkovsky, B. M., Pannasch, S., & Marx, J. (2007). Surprise, surprise: Two distinct components in the visually evoked distractor effect. Psychophysiology, 44, 251-261.

Gutteling, T. P., van Ettinger-Veenstra, H. M., Kenemans, J. L., & Neggers, S. F. W. (2010). Lateralized frontal eye field activity precedes occipital activity shortly before saccades: Evidence for cortico-cortical feedback as a mechanism underlying covert attention shifts. Journal of Cognitive Neuroscience, 22, 1931-1943.

Hamamé, C. M., Vidal, J. R., Perrone-Bertolotti, M., Ossandón, T., Jerbi, K., Kahane, P., Bertrand, O., & Lachaux, J.-P. (2014). Functional selectivity in the human occipitotemporal cortex during natural vision: Evidence from combined intracranial EEG and eye-tracking, NeuroImage, 95, 276-286.

Hassler, U., Friese, U., Martens, U., Trujillo-Barreto, N., & Gruber, T. (2013). Repetition priming effects dissociate between miniature eye movements and induced gamma-band responses in the human electroencephalogram. European Journal of Neuroscience, 38, 2425-2433,

Hemington, K. S., & Reynolds, J. N. (2014). Electroencephalographic correlates of working memory deficits in children with Fetal Alcohol Spectrum Disorder using a single-electrode pair recording device, Clinical Neurophysiology, 125, 2364-2371.

Henderson, J. M., Luke, S. G., Schmidt, J., & Richards, J. E. (2013). Co-registration of eye movements and event-related potentials in connected-text paragraph reading. Frontiers in Systems Neuroscience, 7(28), 1-13. doi: 10.3389/fnsys.2013.00028.

Hong, L., Walz, J. M., & Sajda, P. (2014). Your Eyes Give You Away: Prestimulus Changes in Pupil Diameter Correlate with Poststimulus Task-Related EEG Dynamics. PLoS ONE 9(3): e91321. doi:10.1371/journal.pone.0091321.

Hutzler, F., Fuchs, I., Gagl, B., Schuster, S., Richlan, F., Braun, M., & Hawelka, S. (2013). Parafoveal X-masks interfere with foveal word recognition: evidence from fixation-related brain potentials. Frontiers in System Neuroscience, 7:33. doi: 10.3389/fnsys.2013.00033.

Jangraw, D. C., Wang, J., Lance, B. J., Chang, S. F., & Sajda, P. (2014). Neurally and ocularly informed graph-based models for searching 3D environments. Journal of Neural Engineering, 11, 046003. doi:10.1088/1741-2560/11/4/046003.

Jolij, J., Scholte, H. S., van Gaal, S., Hodgson, T. L., & Lamme, V. A. F. (2011). Act quickly, decide later: Long-latency visual processing underlies perceptual decisions but not reflexive behavior. Journal of Cognitive Neuroscience, 23, 3734-3745.

Kelly, S. P., Foxe, J. J., Newman, G., & Edelman, J. A. (2010). Prepare for conflict: EEG correlates of the anticipation of target competition during overt and covert shifts of visual attention. European Journal of Neuroscience, 31, 1690-1700.

Kamienkowski, J. E., Ison, M. J., Quiroga, R. Q., & Sigman, M. (2012). Fixation-related potentials in visual search: A combined EEG and eye tracking study. Journal of Vision, 12(7):4, 1-20, http://www.journalofvision.org/content/12/7/4, doi:10.1167/12.7.4.

Kang, M.-S., & Woodman, G. F. (2014). The neurophysiological index of visual working memory maintenance is not due to load dependent eye movements, Neuropsychologia, 56, 63-72.

Kaunitz, L. N., Kamienkowski, J. E., Varatharajah, A., Sigman, M., Quiroga, R. Q., & Ison, M. J. (2014). Looking for a face in the crowd: Fixation-related potentials in an eye-movement visual search task. NeuroImage, 89, 297-305.

Keren, A. S., Yuval-Greenberg, S., & Deouell, L. Y. (2010). Saccadic spike potentials in gamma-band EEG: characterization, detection and suppression. NeuroImage, 49, 2248-2263.

Körner, C., Braunstein, V., Stangl, M., Schlögl, A., Neuper, C., & Ischebeck, A. (2014). Sequential effects in continued visual search: Using fixation-related potentials to compare distractor processing before and after target detection. Psychophysiology, 51, 385-395.

Kosilo, M., Wuerger, S.M., Craddock, M., Jennings, B.J., Hunt, A.R., & Martinovic, J. (2013). Low-level and high-level modulations of fixational saccades and high frequency oscillatory brain activity in a visual object classification task. Frontiers in Psychology, 4:948. doi: 10.3389/fpsyg.2013.00948.

Kretzschmar, F., Bornkessel-Schlesewsky, I., & Schlesewsky, M. (2009). Parafoveal versus foveal N400s dissociate spreading activation from contextual fit. Neuroreport, 20, 1613-1618.

Kretzschmar, F., Pleimling, D., Hosemann, J., Füssel, S., Bornkessel-Schlesewsky. I., & Schlesewsky, M. (2013). Subjective impressions do not mirror online reading effort: Concurrent EEG-eyetracking evidence from the reading of books and digital media. PLoS ONE 8(2): e56178. doi:10.1371/journal.pone.0056178.

Loughnane, G. M., Shanley, J. P., Lalor, E. C., & O'Connell, R. G. (2015). Behavioral and electrophysiological evidence of opposing lateral visuospatial asymmetries in the upper and lower visual fields. Cortex, 63, 220-231.

MacNamara, A., Schmidt, J., Zelinsky, G. J., & Hajcak, G. (2012). Electrocortical and ocular indices of attention to fearful and neutral faces presented under high and low working memory load. Biological Psychology, 91, 349-356.

Matheson, H., Newman, A. J., Satel, J., & McMullen, P. (2014). Handles of manipulable objects attract covert visual attention: ERP evidence, Brain and Cognition, 86, 17-23.

Mazaheri, A., DiQuattro, N. E., Bengson, J., & Geng, J. J. (2011). Pre-stimulus activity predicts the winner of top-down vs. bottom-up attentional selection. PLoS ONE 6(2): e16243. doi:10.1371/journal.pone.0016243

Morand, S. M., Harvey, M., & Grosbras, M.-H. (2014). Parieto-occipital cortex shows early target selection to faces in a reflexive orienting task. Cerebral Cortex, 24, 898-907.

Nakatani, C., Chehelcheraghi, M., Jarrahi, B., Nakatani, H., & van Leeuwen, C. (2013). Cross-frequency phase synchrony around the saccade period as a correlate of perceiver's internal state. Frontiers in Systems Neuroscience, 7:18. doi: 10.3389/fnsys.2013.00018.

Nakatani, H., Orlandi, N., & van Leeuwen, C. (2011). Precisely timed oculomotor and parietal EEG activity in perceptual switching. Cognitive Neurodynamics, 5, 399-409.

Nakatani, H., & Van Leeuwen, C. (2013). Antecedent occipital alpha band activity predicts the impact of oculomotor events in perceptual switching. Frontiers in Systems Neuroscience, 7:19. doi: 10.3389/fnsys.2013.00019.

Naue, N., Strüber, D., Fründ, I., Schadow, J., Lenz, D., Rach, S., Körner, U., & Herrmann, C. S. (2011). Gamma in motion: Pattern reversal elicits stronger gamma-band responses than motion. NeuroImage, 55, 808-817.

Nemrodov, D., Anderson, T., Preston, F. F., & Itier, R. J. (2014). Early sensitivity for eyes within faces: A new neuronal account of holistic and featural processing, NeuroImage, 97, 81-94.

Nikolaev, A. R., Nakatani, C., Plomp, G., Jurica, P., & van Leeuwen, C. (2011). Eye fixation-related potentials in free viewing identify encoding failures in change detection. NeuroImage, 56, 1598-1607.

Nikolaev, A.R., Jurica, P., Nakatani, C., Plomp, G., & van Leeuwen, C. (2013). Visual encoding and fixation target selection in free viewing: Presaccadic brain potentials. Frontiers in Systems Neuroscience, 7:26. doi: 10.3389/fnsys.2013.00026.

Ossandón, J. P., Helo, A. V., Montefusco-Siegmund, R., & Maldonado, P. E. (2010). Superposition model predicts EEG occipital activity during free viewing of natural scenes. Journal of Neuroscience, 30, 4787-4795.

Qian, M., Aguilar, M., Zachery, K. N., Privitera, C., Klein, S., Carney, T., & Nolte, L. W. (2009). Decision-level fusion of EEG and pupil features for single-trial visual detection analysis. IEEE Transactions on Biomedical Engineering, 56, 1929-1937.

Park, C., Plank, M., Snider, J., Kim, S., Huang, H. C., Gepshtein, S., Coleman, T., & Poizner, H. (2014). EEG gamma band oscillations differentiate the planning of spatially directed movements of the arm versus eye: multivariate empirical mode decomposition analysis. IEEE Transactions on Neural Systems and Rehabilitation Engineering. 22 (5), 1083-1096, doi: 10.1109/TNSRE.2014.2332450.

Plöchl, M., Ossandón, J. P., & König, P. (2012). Combining EEG and eye tracking: identification, characterization, and correction of eye movement artifacts in electroencephalographic data. Frontiers in Human Neuroscience, 6:278. doi: 10.3389/fnhum.2012.00278.

Polanía, R., Krajbich, I., Grueschow, M., Ruff, C. C. (2014). Neural Oscillations and Synchronization Differentially Support Evidence Accumulation in Perceptual and Value-Based Decision Making, Neuron, 82, 709-720.

Raimondo, F., Kamienkowski, J. E., Sigman, M., & Slezak, D. F. (2012). CUDAICA: GPU Optimization of Infomax-ICA EEG Analysis, Computational Intelligence and Neuroscience, vol. 2012, Article ID 206972, 8 pages, 2012. doi:10.1155/2012/206972.

Rämä, P., & Baccino, T. (2010). Eye fixation-related potentials (EFRPs) during object identification. Visual Neuroscience, 27, 187-192.

Reinhart, R. M. G., Heitz, R. P., Purcell, B. A., Weigand, P. K., Schall, J. D., & Woodman, G. F. (2012). Homologous mechanisms of visuospatial working memory maintenance in macaque and human: Properties and sources. The Journal of Neuroscience, 32, 7711-7722.

Satel, J., Hilchey, M. D., Wang, Z., Story, R., & Klein, R. M. (2013). The effects of ignored versus foveated cues upon inhibition of return: An event-related potential study. Attention, Perception, & Psychophysics, 75, 29-40.

Satel, J., Hilchey, M. D., Wang, Z., Reiss, C. S., & Klein, R. M. (2014). In search of a reliable electrophysiological marker of oculomotor inhibition of return. Psychophysiology, 51, 1037-1045.

Sato, N., & Yamaguchi, Y. (2007). Theta synchronization networks emerge during human object-place memory encoding. Neuroreport, 18, 419-424.

Sato, N., & Yamaguchi, Y. (2009). A computational predictor of human episodic memory based on a theta phase precession network. PLoS ONE 4(10): e7536. doi:10.1371/journal.pone.0007536.

Sander, V., Soper, B., & Everling, S. (2010). Nonhuman primate event-related potentials associated with pro- and anti-saccades. NeuroImage, 49, 1650-1658.

Savage, S. W., Potter, D. D., & Tatler, B. W. (2013). Does preoccupation impair hazard perception? A simultaneous EEG and Eye Tracking study, Transportation Research Part F: Traffic Psychology and Behaviour,17, 52-62.

Simola, J., Le Fevre, K., Torniainen, J., & Baccino, T. (2015). Affective processing in natural scene viewing: Valence and arousal interactions in eye-fixation-related potentials, NeuroImage, 106, 21-33.

Steiner, G. Z., & Barry, R. J. (2011). Pupillary responses and event-related potentials as indices of the orienting reflex. Psychophysiology, 48, 1648-1655.

Talsma, D., White, B.J., Mathôt, S., Munoz, D. P., & Theeuwes, J. (2013). A retinotopic attentional trace after saccadic eye movements: evidence from event-related potentials. Journal of Cognitive Neuroscience, 25, 1563-1577.

Vaden, R. J., Hutcheson, N. L., McCollum, L. A., Kentros, J., & Visscher, K. M. (2012). Older adults, unlike younger adults, do not modulate alpha power to suppress irrelevant information. Neuroimage, 63, 1127-1133.

Verleger, R., Sprenger, A., Gebauer, S., Fritzmannova, M., Friedrich, M., Kraft, S., & Jaskowski, P. (2009). On why left events are the right ones: Neural mechanisms underlying the left-hemifield advantage in rapid serial visual presentation. Journal of Cognitive Neuroscience, 21, 474-488.

Weiler, J., Hassall, C. D., Krigolson, O. E., & Heath, M. (2015). The unidirectional prosaccade switch-cost: Electroencephalographic evidence of task-set inertia in oculomotor control. Behavioural Brain Research, 278, 323-329.

Wilson, G. F., Caldwell, J. A., & Russell, C. A. (2007). Performance and psychophysiological measures of fatigue effects on aviation related tasks of varying difficulty. International Journal of Aviation Psychology, 17, 219-247.

Xu, Y., & Franconeri, S. L. (2012). The Head of the Table: Marking the "Front" of An Object Is Tightly Linked with Selection The Journal of Neuroscience, 25 January 2012, 32(4):1408-1412;

Yoder, K. J., & Belmonte, M. K. (2010). Combining computer game-based behavioural experiments with high-density EEG and infrared gaze tracking. Journal of Visualized Experiment, 46, https://www.jove.com/details.stp?id=2320, doi: 10.3791/2320.

Yuval-Greenberg, S., & Deouell, L. Y. (2011). Scalp-recorded induced gamma-band responses to auditory stimulation and its correlations with saccadic muscle-activity. Brain Topography, 24, 30-39.

Yuval-Greenberg, S., Tomer, O., Keren, A. S., Nelken, I., & Deouell, L. Y. (2008). Transient induced Gamma-band response in EEG as a manifestation of miniature saccades. Neuron, 58, 429-441.

Zerouali, Y., Lina, J.-M., & Jemel, B. (2013). Optimal eye-gaze fixation position for face-related neural responses. PLoS ONE 8(6): e60128. doi:10.1371/journal.pone.0060128.

fMRI in the same session

Barany, D. A., Della-Maggiore, V., Viswanathan, S., Cieslak, M., Grafton, S. T. (2014). Feature Interactions Enable Decoding of Sensorimotor Transformations for Goal-Directed Movement. Journal of Neuroscience, 34, 6860-6873.

Bender, J., Tark, K.-J., Reuter, B., Kathmann, N., & Curtis, C. E. (2013). Differential roles of the frontal and parietal cortices in the control of saccades. Brain and Cognition, 83, 1-9.

Bridge, D. J., & J. L. Voss (2014). Hippocampal Binding of Novel Information with Dominant Memory Traces Can Support Both Memory Stability and Change Journal of Neuroscience, 34, 2203-2213.

Choi, W., Desai, R. H., & Henderson, J. M. (2014). The neural substrates of natural reading: a comparison of normal and nonword text using eyetracking and fMRI. Frontiers in Human Neuroscience, 8:1024. doi: 10.3389/fnhum.2014.01024.

Elkhetali, A. S., Vaden, R. J., Pool, S. M., & Visscher, K. M. (in press). Early visual cortex reflects initiation and maintenance of task set, NeuroImage,

Faivre, N., Charron, S., Roux, P., Lehéricy, S., & Kouider, S. (2012). Nonconscious emotional processing involves distinct neural pathways for pictures and videos. Neuropsychologia, 50, 3736-3744.

Ferri, J., Schmidt, J., Hajcak, G., & Canli, T. (2013). Neural correlates of attentional deployment within unpleasant pictures. NeuroImage, 70, 268-277.

Freeman, J., Brouwer, G. J., Heeger, D. J., & Merriam, E. P. (2011). Orientation decoding depends on maps, not columns. Journal of Neuroscience, 31, 4792-4804.

Freeman, J., Heeger, D. J., & Merriam, E. P. (2013). Coarse-scale biases for spirals and orientation in human visual cortex. The Journal of Neuroscience, 33, 19695-19703.

Greenberg, T., Carlson, J. M., Cha, J., Hajcak, G., & Mujica-Parodi, L. R. (2013). Neural reactivity tracks fear generalization gradients. Biological Psychology, 92, 2-8.

Greenberg, T., Carlson, J. M., Cha, J, Hajcak, G., & Mujica-Parodi, L. R. (2013). Ventromedial prefrontal cortex reactivity is altered in generalized anxiety disorder during fear generalization. Depression and Anxiety, 30, 242-250.

Guerin, S. A., Robbins, C. A., Gilmore, A. W., & Schacter, D. L. (2012). Retrieval failure contributes to gist-based false recognition. Journal of Memory and Language, 66, 68-78.

Guo, F., Preston, T. J., Das, K., Giesbrecht, B., & Eckstein, M. P. (2012). Feature-independent neural coding of target detection during search of natural scenes. The Journal of Neuroscience, 32, 9499-9510.

Henderson, J. M., Choi, W., & Luke, S. G. (2014). Morphology of Primary Visual Cortex Predicts Individual Differences in Fixation Duration during Text Reading. Journal of Cognitive Neuroscience, 26, 2880-2888.

Herrmann, K., Montaser-Kouhsari, L., Carrasco, M., & Heeger, D. J. (2010). When size matters: attention affects performance by contrast or response gain. Nature Neuroscience, 13, 1554-1559.

Herweg, N. A., Weber, B., Kasparbauer, A., Meyhöfer, I., Steffens, M., Smyrnis, N., & Ettinger, U. (2014). Functional magnetic resonance imaging of sensorimotor transformations in saccades and antisaccades, NeuroImage, 102, 848-860.

Jerde, T. A., Merriam, E. P., Riggall, A. C., Hedges, J. H., & Curtis, C. E. (2012). Prioritized maps of space in human frontoparietal cortex. Journal of Neuroscience, 32, 17382-17390.

Josipovic, Z., Dinstein, I., Weber, J., & Heeger, D. J. (2012). Influence of meditation on anticorrelated networks in the brain. Frontiers in Human Neuroscience, 5:183. doi: 10.3389/fnhum.2011.00183.

Lahnakoski, J. M., Glerean, E., Jääskeläinen, I. P., Hyönä, J., Hari, R., Sams, M., & Nummenmaa, L. (2014). Synchronous brain activity across individuals underlies shared psychological perspectives, NeuroImage, 100, 316-324.

Lawson, R. P., Seymour, B., Loh, E., Lutti, A., Dolan, R. J., Dayan, P., Weiskopf, N., Roiser, J. P., (2014). The habenula encodes negative motivational value associated with primary punishment in humans. PNAS, 111, 11858-11863.

Lukasova, K., Sommer, J., Nucci-da-Silva, M.P., Vieira, G., Blanke, M., Bremmer, F., Sato, J.R., Kircher, T., & Amaro, E. Jr. (2014). Test-retest reliability of fMRI activation generated by different saccade tasks. Journal of Magnetic Resonance Imaging, 40, 37-46.

Merriam, E. P., Gardner, J. L., Movshon, J. A., & Heeger, D. J. (2013). Modulation of visual responses by gaze direction in human visual cortex. The Journal of Neuroscience, 33, 9879-9889.

Maloney, R. T., Watson, T. L., & Clifford, C. W. G. (2014). Determinants of motion response anisotropies in human early visual cortex: The role of configuration and eccentricity, NeuroImage, 100, 564-579.

Maloney, R. T., Watson, T. L., & Clifford, C. W. G. (2013). Human cortical and behavioral sensitivity to patterns of complex motion at eccentricity. Journal of Neurophysiology, 110, 2545 - 2556

Meuwese, J. D. I., Scholte, H. S., & Lamme, V. A. F. (2014). Latent Memory of Unattended Stimuli Reactivated by Practice: An fMRI Study on the Role of Consciousness and Attention in Learning. PLoS ONE 9(3): e90098. doi:10.1371/journal.pone.0090098.

Meyhöfer, I., Steffens, M., Kasparbauer, A., Grant, P., Weber, B., & Ettinger, U. (2015). Neural mechanisms of smooth pursuit eye movements in schizotypy. Human Brain Mapping, 36, 340-353.

Miall, R. C., Nam, S.-H., & Tchalenko, J. (2014). The influence of stimulus format on drawing: a functional imaging study of decision making in portrait drawing, NeuroImage, 102, 608-619.

Pfeiffer, U. J., Schilbach, L., Timmermans, B., Kuzmanovic, B., Georgescu, A. L., Bente, G., & Vogeley, K. (2014). Why we interact: On the functional role of the striatum in the subjective experience of social interaction, NeuroImage, 101, 124-137.

Preston, T. J., Guo, F., Das, K., Giesbrecht, B., Eckstein, M. P. (2013). Neural representations of contextual guidance in visual search of real-world scenes. The Journal of Neuroscience, 33, 7846-7855.

Richlan, F., Gagl, B., Hawelka, S., Braun, M., Schurz, M., Kronbichler, M., & Hutzler, F. (2014). Fixation-related fMRI analysis in the domain of reading research: Using self-paced eye movements as markers for hemodynamic brain responses during visual letter string processing. Cerebral Cortex, 24, 2647 - 2656.

Schneider, D., Slaughter, V. P., Becker, S. I., & Dux, P. E. (2014). Implicit false-belief processing in the human brain, NeuroImage, 101, 268-275.

Song, C., Schwarzkopf, D. S., Lutti, A., Li, B., Kanai, R., & Rees, G. (2013). Effective connectivity within human primary visual cortex predicts interindividual diversity in illusory perception. The Journal of Neuroscience, 33, 18781-18791.

Tark, K.-J., & Curtis, C. E. (2013). Deciding where to look based on visual, auditory, and semantic information. Brain Research, 1525, 26-38.

van Elk, M. (2014). The left inferior parietal lobe represents stored hand-postures for object use and action prediction. Frontiers in Psychology, 5, 333. doi:10.3389/fpsyg.2014.00333.

Visser, R.M., Scholte, H.S., Beemsterboer, T., & Kindt, M. (2013). Neural pattern similarity predicts long-term fear memory. Nature Neuroscience, 16, 388-390.

Wang, H. X., Merriam, E. P., Freeman, J., & Heeger, D. J. (2014). Motion Direction Biases and Decoding in Human Visual Cortex. Journal of Neuroscience, 34, 12601-12615.

Yellin, D., Berkovich-Ohana, A., & Malach, R. (in press). Coupling between pupil fluctuations and resting-state fMRI uncovers a slow build-up of antagonistic responses in the human cortex, NeuroImage,

Zeki, S., & Stutters, J. (2013). Functional specialization and generalization for grouping of stimuli based on colour and motion. NeuroImage, 73, 156-166.

MEG

Brown, H. R., & Friston, K. J. (2013). The functional anatomy of attention: a DCM study. Frontiers in Human Neuroscience, 7:784. doi: 10.3389/fnhum.2013.00784.

Capilla, A., Belin, P., & Gross, J. (2013). The early spatio-temporal correlates and task independence of cerebral voice processing studied with MEG. Cerebral Cortex, 23, 1388-1395.

Coffman, B. A., Kodituwakku, P., Kodituwakku, E. L., Romero, L., Sharadamma, N. M., Stone, D., & Stephen, J. M. (2013). Primary visual response (M100) delays in adolescents with FASD as measured with MEG. Human Brain Mapping, 34, 2852-2862.

Guitart-Masip, M., Barnes, G. R., Horner, A., Bauer, M., Dolan, R. J., & Duzel, E. (2013).Synchronization of medial temporal lobe and prefrontal rhythms in human decision making. The Journal of Neuroscience, 33, 442-451.

He, W., Brock, J., Johnson, B. W. (2014). Face-sensitive brain responses measured from a four year old child with a custom-sized child MEG system. Journal of Neuroscience Methods, 222, 213-217.

He, W., Brock, J., & Johnson, B. W. (in press). Face processing in the brains of pre-school aged children measured with MEG, NeuroImage,

Horschig, J. M., Jensen, O., Van Schouwenburg, M. R., cools, R., & Bonnefond, M. (2014). Alpha activity reflects individual abilities to adapt to the environment. NeuroImage, 89, 235-243.

Kluge, C., Bauer, M., Leff, A. P., Heinze, H.-J., Dolan, R. J., & Driver, J. (2011). Plasticity of human auditory-evoked fields induced by shock conditioning and contingency reversal. Proceedings of the National Academy of Sciences, 108, 12545-12550.

Lee, A.K.C., Rajaram, S., Xia, J., Bharadwaj, H., Larson, E., Hämäläinen, M.S., & Shinn-Cunningham, B.G. (2013). Auditory selective attention reveals preparatory activity in different cortical regions for selection based on source location and source pitch. Frontiers in Neuroscience, 6:190. doi: 10.3389/fnins.2012.00190.

Leffel, T., Lauter, M., Westerlund, M. & Pylkkänen, L. (2014). Restrictive vs. non-restrictive composition: a magnetoencephalography study. Language, Cognition and Neuroscience, 29, 1191-1204.

Park, H.-D., Correia, S., Ducorps, A., & Tallon-Baudry, C. (2014). Spontaneous fluctuations in neural responses to heartbeats predict visual detection. Nature Neuroscience, 17, 612-618.

Pylkkänen, L., Bemis, D. K., & Elorrieta, E. B. (2014). Building phrases in language production: An MEG study of simple composition, Cognition, 133, 371-384.

Ramkumar, P., Jas, M., Pannasch, S., Hari, R., & Parkkonen, L. (2013). Feature-specific information processing precedes concerted activation in human visual cortex. The Journal of Neuroscience, 33, 7691-7699.

Riggs, L., Fujioka, T., Chan, J., McQuiggan, D. A., Anderson, A. K., & Ryan, J. D. (2014). Association with emotional information alters subsequent processing of neutral faces. Frontiers in Human Neuroscience, 8:1001. doi: 10.3389/fnhum.2014.01001.

Roijendijk, L., Farquhar, J., van Gerven, M., Jensen, O., & Gielen, S. (2013). Exploring the impact of target eccentricity and task difficulty on covert visual spatial attention and its implications for brain computer interfacing. PLoS ONE 8(12): e80489. doi:10.1371/journal.pone.0080489.

Shigihara, Y., & Zeki, S. (2013). Parallelism in the brain's visual form system. European Journal of Neuroscience, 38, 3712-3720.

Shigihara, Y., & Zeki, S. (2014). Parallel processing of face and house stimuli by V1 and specialized visual areas: a magnetoencephalographic (MEG) study. Frontiers in Human Neuroscience, 8, 901. doi:10.3389/fnhum.2014.00901.

Spaak, E., de Lange, F. P., & Jensen, O. (2014).Local Entrainment of Alpha Oscillations by Visual Stimuli Causes Cyclic Modulation of Perception. Journal of Neuroscience, 34, 3536-3544.

Stephen, J. M., Coffman, B. A., Stone, D. B., & Kodituwakku, P. (2013). Differences in MEG gamma oscillatory power during performance of a prosaccade task in adolescents with FASD. Frontiers in Human Neuroscience, 7, 900. doi:10.3389/fnhum.2013.00900.

Tan, H.-R. M., Leuthold, H., & Gross, J. (2013). Gearing up for action: Attentive tracking dynamically tunes sensory and motor oscillations in the alpha and beta band. NeuroImage, 82, 634-644.

van de Nieuwenhuijzen, M. E., Backus, A. R., Bahramisharif, A., Doeller, C. F., Jensen, O., & van Gerven, M. A. J. (2013). MEG-based decoding of the spatiotemporal dynamics of visual category perception. NeuroImage, 83, 1063-1073.

van Pelt, S., & Fries, P. (2013). Visual stimulus eccentricity affects human gamma peak frequency. NeuroImage, 78,439-447.

Westerlund, M., & Pylkkänen, L. (2014). The role of the left anterior temporal lobe in semantic composition vs. semantic memory, Neuropsychologia, 57, 59-70.

NIRS

Fekete, T., Beacher, F. D. C. C., Cha, J., Rubin, D., Mujica-Parodi, L. R. (2014). Small-world network properties in prefrontal cortex correlate with predictors of psychopathology risk in young children: A NIRS study. NeuroImage, 85, 345-353.

Kita, Y., Gunji, A., Inoue, Y., Goto, T., Sakihara, K., Kaga, M., Inagaki, M., & Hosokawa, T. (2011). Self-face recognition in children with autism spectrum disorders: A near-infrared spectroscopy study. Brain and Development, 33, 494-503.

Kita. Y., Gunji, A., Sakihara, K., Inagaki, M., Kaga, M., Nakagawa, E., & Hosokawa, T. (2010). Scanning strategies do not modulate face identification: Eye-tracking and near-infrared spectroscopy study. PLoS ONE 5(6): e11050. doi:10.1371/journal.pone.0011050.

Niu, H., Li, H., Sun, L., Su, Y., Huang, J., & Song, Y. (2014). Visual Learning Alters the Spontaneous Activity of the Resting Human Brain: An fNIRS Study. BioMed Research International, 2014, 631425. doi:10.1155/2014/631425Noguchi, T., & Stewart, N. (2014). In the attraction, compromise, and similarity effects, alternatives are repeatedly compared in pairs on single dimensions, Cognition, 132, 44-56.