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Microsaccades Publications
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Betta, E., Galfano, G., & Turatto, M. (2007). Microsaccadic response during inhibition of return in a target-target paradigm. Vision Research, 47, 428-436.
Betta, E., & Turatto, M. (2006). Are you ready? I can tell by looking at your microsaccades. NeuroReport, 17, 1001-1004.
Bettenbühl, M., Paladini, C., Mergenthaler, K., Kliegl, R., Engbert, R., & Holschneider, M. (2010). Microsaccade characterization using the continuous wavelet transform and principal component analysis. Journal of Eye Movement Research, 3(5):1, 1-14.
Bonneh, Y. S., Donner, T. H., Sagi, D., Fried, M., Cooperman, A., Heeger, D. J., & Arieli, A. (2010). Motion-induced blindness and microsaccades: Cause and effect. Journal of Vision, 10(14):22, 1-15, http://www.journalofvision.org/content/10/14/22, doi:10.1167/10.14.22.
Dettler, 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.
Engbert, R., & Kliegl, R. (2003). Microsaccades uncover the orientation of covert attention. Vision Research, 43, 1035-1045.
Engbert, R., & Kliegl, R. (2004). Microsaccades keep the eyes' balance. Psychological Science, 15, 431-436.
Engbert, R., & Mergenthaler, K. (2006). Microsaccades are triggered by low retinal image slip. Proceedings of the National Academy of Sciences, 18, 7192-7197.
Galfano, G., Betta, E., & Turatto, M. (2004). Inhibition of return in microsaccades. Experimental Brain Research, 159, 400-404.
Hermens, F., & Walker, R. (2010). What determines the direction of microsaccades? Journal of Eye Movement Research, 3(4):1, 1-20.
Hermens, F., Zanker, J. M., & Walker, R. (2010). Microsaccades and preparatory set: A comparison between delayed and immediate, exogenous and endogenous pro- and anti-saccades. Experimental Brain Research, 201, 489-498.
Herrington, T. M., Masse, N. Y., Hachmeh, K. J., Smith, J. E. T., Assad, J. A., & Cook, E. P. (2009). The effect of microsaccades on the correlation between neural activity and behavior in middle temporal, ventral intraparietal, and lateral intraparietal areas. Journal of Neuroscience, 29, 5793-5805.
Hsieh, P.-J., & Tse, P. U. (2009). Microsaccade rate varies with subjective visibility during motion-induced blindness. PLoS ONE 4(4): e5163. doi:10.1371/journal.pone.0005163.
Hsieh, P.-J., & Tse, P. U. (2010). BOLD signal in both ipsilateral and contralateral retinotopic cortex modulates with perceptual fading. PLoS ONE 5(3): e9638. doi:10.1371/journal.pone.0009638.
Kliegl, R., Rolfs, M., Laubrock, J., & Engbert, R. (2009). Microsaccadic modulation of response times in spatial attention tasks. Psychological Research, 73, 136-146.
Kloke, W. B., Jaschinski, W., & Jainta, S. (2009). Microsaccades under monocular viewing conditions. Journal of Eye Movement Research, 3(1):2, 1-7.
Laubrock, J., Engbert, R., & Kliegl, R. (2005). Microsaccade dynamics during covert attention. Vision Research, 45, 721-730.
Laubrock, J., Kliegl, R., Rolfs, M., & Engbert, R. (2010). When do microsaccades follow spatial attention? Attention, Perception, & Psychophysics, 72, 683-694.
Liang, J.-R., Moshel, S., Zivotofsky, A. Z., Caspi, A., Engbert, R., Kliegl, R., & Havlin, S. (2005). Scaling of horizontal and vertical fixational eye movements. Physical Review E, 71, 031909.
Makin, A. D. J., Ackerley, R., Wild, K., Poliakoff, E., Gowen, E., & El-Deredy, W. (2011). Coherent illusory contours reduce microsaccade frequency. Neuropsychologia, 49, 2798-2801.
Martinez-Conde, S., Macknik, S. L., Tronconso, X. G., & Dyar, T. A. (2006). Microsaccades counteract visual fading during fixation. Neuron, 49, 297-305.
Mergenthaler, K., & Engbert, R. (2010). Microsaccades are different from saccades in scene perception. Experimental Brain Research, 203, 753-757.
Møller, F., Laursen, M. L., & Sjølie, A. K. (2005). Binocular fixation topography in patients with diabetic macular oedema: Possible implications for photocoagulation therapy (3rd revision). Graefe's Archive for Clinical and Experimental Ophthalmology, 243, 903-910.
Møller, F., Laursen, M. L., & Sjølie, A. K. (2006). The contribution of microsaccades and drifts in the maintenance of binocular steady fixation. Graefe's Archive for Clinical and Experimental Ophthalmology, 244, 465-471.
Møller, F., Laursen, M. L., & Sjølie, A. K. (2006). Fixation topography in normal test persons. Graefe's Archive for Clinical and Experimental Ophthalmology, 244, 577-582.
Møller, F., Laursen, M., Tygesen, J., & Sjølie, A. (2002). Binocular quantification and characterization of microsaccades. Graefe's Archive for Clinical and Experimental Ophthalmology, 240, 765-770
Moshel, S., Liang, J.-R., Caspi, A., Engbert, R., Kliegl, R., Havlin, S., & Zivotofsky, A.Z. (2005). Phase-synchronization decay of fixational eye movements. Annals of the New York Academy of Sciences, 1039, 484-488.
Moshel, S., Zivotofsky, A. Z., Liang, J.-R., Engbert, R., Kurths, J., Kliegl, R., & Havlin, S. (2008). Persistence and phase synchronisation properties of fixational eye movements. The European Physical Journal, 161, 1951-6355.
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.
Otero-Millan, J., Serra, A., Leigh, R. J., Troncoso, X. G., Macknik, S. L., & Martinez-Conde, S. (2011). Distinctive features of saccadic intrusions and microsaccades in Progressive Supranuclear Palsy. Journal of Neuroscience, 31, 4379-4387.
Otero-Millan, J., Troncoso, X. G., Macknik, S. L., Serrano-Pedraza, I., & Martinez-Conde, S. (2008). Saccades and microsaccades during visual fixation, exploration, and search: Foundations for a common saccadic generator. Journal of Vision, 8(14):21, 1-18, http://journalofvision.org/8/14/21/, doi:10.1167/8.14.21.
Pastukhov, A., & Braun, J. (2010). Rare but precious: Microsaccades are highly informative about attentional allocation. Vision Research, 50, 1173-1184.
Rolfs, M., Engbert, R., & Kliegl, R. (2004). Microsaccade orientation supports attentional enhancement opposite to a peripheral cue. Psychological Science, 15, 705-707.
Rolfs, M., Kliegl, R., & Engbert, R. (2008). Toward a model of microsaccade generation: The case of microsaccadic inhibition. Journal of Vision, 8(11):5, 1-23, http://journalofvision.org/8/11/5/, doi:10.1167/8.11.5.
Rolfs, M., Laubrock, J., & Kliegl, R. (2006). Shortening and prolongation of saccade latencies following microsaccades. Experimental Brain Research, 169, 369-376.
Sinn, P., & Engbert, R. (2011). Saccadic facilitation by modulation of microsaccades in natural backgrounds. Attention, Perception, & Psychophysics, 73, 1029-1033.
Tronconso, X. G., Macknik, S. L., & Martinez-Conde, S. (2008). Microsaccades counteract perceptual filling-in. Journal of Vision, 8(14):15, 1-9, http://journalofvision.org/8/14/15/, doi:10.1167/8.14.15.
Tronconso, X. G., Macknik, S. L., Otero-Millan, G., & Martinez-Conde, S. (2008). Microsaccades drive illusory motion in the Enigma illusion. Proceedings of the National Academy of Sciences, 105, 16033-16038.
Tse, P. U., Caplovitz, G. P., & Hsieh, P. -J. (2006). Microsaccade directions do not predict directionality of illusory brightness changes of overlapping transparent surfaces. Vision Research, 46, 3823-3830.
Tse, P. U., Caplovitz, G. P., & Hsieh, P. -J. (2009). Corrigendum to "Microsaccade directions do not predict directionality of illusory brightness changes of overlapping transparent surfaces" [Vision Research 46 (2006) 3823-3830]". Vision Research, 49, 790.e1-790.e7.
Turatto, M., Valsecchi, M., Tame, L., & Betta, E. (2007). Microsaccades distinguish between global and local visual processing. Neuroreport, 18, 1015-1018.
Valsecchi, M., Betta, E., & Turatto, M. (2007). Visual oddballs induce prolonged microsaccadic inhibition. Experimental Brain Research, 177, 196-208.
Valsecchi, M., & Turatto, M. (2007). Microsaccadic response to visual events that are invisible to the superior colliculus. Behavioral Neuroscience, 121, 786-793.
Valsecchi, M., & Turatto, M. (2009). Microsaccadic responses in a bimodal oddball task. Psychological Research, 73, 23-33.
van Dam, L. C. J., & Van Ee, R. (2005). The role of (micro)saccades and blinks in perceptual bi-stability from slant rivalry. Vision Research, 45, 2417-2435.