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On the Temporal Precision of Thought: Individual Differences in the Multisensory Temporal Binding Window Predict Performance on Verbal and Nonverbal Problem Solving Tasks

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Although psychology is greatly preoccupied by the tight link between the way that individuals perceive the world and their intelligent, creative behavior, there is little experimental work on the relationship between individual differences in perception and cognitive ability in healthy populations. Here, individual differences in problem solving ability were examined in relation to multisensory perception as measured by tolerance for temporal asynchrony between auditory and visual inputs, i.e., the multisensory temporal binding window. The results demonstrated that enhanced performance in both verbal and nonverbal problem solving tasks (the Remote Associates Test and Raven’s Advanced Progressive Matrices Task) is predicted by a narrower audio-visual temporal binding window, which reflects greater sensitivity to subtle discrepancies in sensory inputs. This suggests that the precision of individuals’ temporal window of multisensory integration might mirror their capacities for complex reasoning and thus the precision of their thoughts.

Affiliations: 1: 1Department of Psychology, University of Cambridge, Cambridge, UK ; 2: 2Institute for Psychological Research & Leiden Institute for Brain and Cognition, Leiden University, Leiden, The Netherlands

*To whom correspondence should be addressed. E-mail:

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1. Akbari Chermahini S., Hommel B. (2010). "The (b) link between creativity and dopamine: spontaneous eye blink rates predict and dissociate divergent and convergent thinking", Cognition Vol 115, 458465. [Crossref]
2. Akbari Chermahini S. A., Hickendorff M., Hommel B. (2012). "Development and validity of a Dutch version of the remote associates task: an item-response theory approach", Think. Skills Creat. Vol 7, 177186. [Crossref]
3. Ansburg P. I., Hill K. (2003). "Creative and analytic thinkers differ in their use of attentional resources", Pers. Indiv. Dif. Vol 34, 11411152. [Crossref]
4. Bahrick L. E. (2010). "Intermodal perception and selective attention to intersensory redundancy: implications for typical social development and autism", in: Blackwell Handbook of Infant Development, 2nd edn., Bremner G., Wachs T. D. (Eds), pp.  120166. Blackwell Publishing, Oxford, UK. [Crossref]
5. Bahrick L. E., Lickliter R. (2000). "Intersensory redundancy guides attentional selectivity and perceptual learning in infancy", Dev. Psychol. Vol 36, 190201. [Crossref]
6. Bahrick L. E., Lickliter R. (2012). "The role of intersensory redundancy in early perceptual, cognitive, and social development", in: Multisensory Development, Bremner A. J., Lewkowicz D. J., Spence C. (Eds), pp.  183206. Oxford University Press, Oxford, UK. [Crossref]
7. Bahrick L. E., Lickliter R. (2014). "Learning to attend selectively the dual role of intersensory redundancy", Curr. Dir. Psychol. Sci. Vol 23, 414420. [Crossref]
8. Bastien-Toniazzo M., Stroumza A., Cavé C. (2009). "Audio-visual perception and integration in developmental dyslexia: an exploratory study using the McGurk effect", Curr. Psychol. Lett. Vol 25, 214.
9. Bebko J. M., Weiss J. A., Demark J. L., Gomez P. (2006). "Discrimination of temporal synchrony in intermodal events by children with autism and children with developmental disabilities without autism", J. Child Psychol. Psychiatry Vol 47, 8898. [Crossref]
10. Bebko J. M., Schroeder J. H., Weiss J. A. (2014). "The McGurk effect in children with autism and Asperger syndrome", Autism Res. Vol 7, 5059. [Crossref]
11. Beeman M. J., Bowden E. M. (2000). "The right hemisphere maintains solution-related activation for yet-to-be-solved problems", Mem. Cogn. Vol 28, 12311241. [Crossref]
12. Berg C. A., Strough J., Calderone K. S., Sansone C., Weir C. (1998). "The role of problem definitions in understanding age and context effects on strategies for solving everyday problems", Psychol. Aging Vol 13, 2944. [Crossref]
13. Bishop C. W., Miller L. M. (2009). "A multisensory cortical network for understanding speech in noise", J. Cogn. Neurosci. Vol 21, 17901804. [Crossref]
14. Boenke L. T., Deliano M., Ohl F. W. (2009). "Stimulus duration influences perceived simultaneity in audiovisual temporal-order judgment", Exp. Brain Res. Vol 198, 233244. [Crossref]
15. Bowden E. M., Jung-Beeman M. (2003). "Normative data for 144 compound remote associate problems", Behav. Res. Methods Instrum. Comput. Vol 35, 634639. [Crossref]
16. Calvert G. A., Thesen T. (2004). "Multisensory integration: methodological approaches and emerging principles in the human brain", J. Physiol. Paris Vol 98, 191205. [Crossref]
17. Cascio C. J., Foss-Feig J. H., Burnette C. P., Heacock J. L., Cosby A. A. (2012). "The rubber hand illusion in children with autism spectrum disorders: delayed influence of combined tactile and visual input on proprioception", Autism Vol 16, 406419. [Crossref]
18. Conrey B., Pisoni D. B. (2006). "Auditory–visual speech perception and synchrony detection for speech and nonspeech signals", J. Acoust. Soc. Am. Vol 119, 40654073. [Crossref]
19. De Boer-Schellekens L., Eussen M., Vroomen J. (2013). "Diminished sensitivity of audiovisual temporal order in autism spectrum disorder", Front. Integr. Neurosci. Vol 7, 8. DOI:. [Crossref]
20. De Gelder B., Bertelson P. (2003). "Multisensory integration, perception and ecological validity", Trends Cogn. Sci. Vol 7, 460467. [Crossref]
21. De Gelder B., Vroomen J., Van der Heide L. (1991). "Face recognition and lip-reading in autism", Eur. J. Cogn. Psychol. Vol 3, 6986. [Crossref]
22. De Gelder B., Vroomen J., Annen L., Masthof E., Hodiamont P. (2003). "Audio-visual integration in schizophrenia", Schizophr. Res. Vol 59, 211218. [Crossref]
23. De Gelder B., Vroomen J., De Jong S. J., Masthoff E. D., Trompenaars F. J., Hodiamont P. (2005). "Multisensory integration of emotional faces and voices in schizophrenics", Schizophr. Res. Vol 72, 195203. [Crossref]
24. De Jong J. J., Hodiamont P. P. G., Van den Stock J., De Gelder B. (2009). "Audiovisual emotion recognition in schizophrenia: reduced integration of facial and vocal affect", Schizophr. Res. Vol 107, 286293. [Crossref]
25. DeShon R. P., Chan D., Weissbein D. A. (1995). "Verbal overshadowing effects on raven’s advanced progressive matrices: evidence for multidimensional performance determinants", Intelligence Vol 21, 135155. [Crossref]
26. Diederich A., Colonius H. (2009). "Crossmodal interaction in speeded responses: time window of integration model", Progr. Brain Res. Vol 174, 119135. [Crossref]
27. Diederich A., Colonius H. (2015). "The time window of multisensory integration: relating reaction times and judgments of temporal order", Psychol. Rev. Vol 122, 232241. [Crossref]
28. Diederich A., Colonius H., Schomburg A. (2008). "Assessing age-related multisensory enhancement with the time-window-of-integration model", Neuropsychologia Vol 46, 25562562. [Crossref]
29. Dillon R. F., Pohlmann J. T., Lohman D. F. (1981). "A factor analysis of Raven’s advanced progressive matrices freed of difficulty factors", Educ. Psychol. Meas. Vol 41, 12951302. [Crossref]
30. Dixon N. F., Spitz L. (1980). "The detection of auditory visual desynchrony", Perception Vol 9, 719721. [Crossref]
31. Donohue S. E., Woldorff M. G., Mitroff S. R. (2010). "Video game players show more precise multisensory temporal processing abilities", Atten. Percept. Psychophys. Vol 72, 11201129. [Crossref]
32. Donohue S. E., Darling E. F., Mitroff S. R. (2012). "Links between multisensory processing and autism", Exp. Brain Res. Vol 222, 377387. [Crossref]
33. Dorfman J., Shames V. A., Kihlstrom J. F. (1996). "Intuition, incubation, and insight: implicit cognition in problem solving", in: Implicit Cognition, Underwood G. (Ed.), pp.  257296. Oxford University Press, Oxford, UK.
34. Epelboim J., Suppes P. (1997). "Eye movements during geometrical problem solving", Perception Vol 26(1 Suppl.), 138. [Crossref]
35. Foss-Feig J. H., Kwakye L. D., Cascio C. J., Burnette C. P., Kadivar H., Stone W. L., Wallace M. T. (2010). "An extended multisensory temporal binding window in autism spectrum disorders", Exp. Brain Res. Vol 203, 381389. [Crossref]
36. Foss-Feig J. H., Heacock J. L., Cascio C. J. (2012). "Tactile responsiveness patterns and their association with core features in autism spectrum disorders", Res. Autism Spectr. Disord. Vol 6, 337344. [Crossref]
37. Foucher J. R., Lacambre M., Pham B. T., Giersch A., Elliott M. A. (2007). "Low time resolution in schizophrenia: lengthened windows of simultaneity for visual, auditory and bimodal stimuli", Schizophr. Res. Vol 97, 118127. [Crossref]
38. Fujisaki W., Nishida S. Y. (2009). "Audio-tactile superiority over visuo-tactile and audio-visual combinations in the temporal resolution of synchrony perception", Exp. Brain Res. Vol 198, 245259. [Crossref]
39. Fujisaki W., Shimojo S., Kashino M., Nishida S. Y. (2004). "Recalibration of audiovisual simultaneity", Nat. Neurosci. Vol 7, 773778. [Crossref]
40. Girin L., Schwartz J. L., Feng G. (2001). "Audio-visual enhancement of speech in noise", J. Acoust. Soc. Am. Vol 109, 30073020. [Crossref]
41. Gondan M., Niederhaus B., Rösler F., Röder B. (2005). "Multisensory processing in the redundant-target effect: a behavioral and event-related potential study", Percept. Psychophys. Vol 67, 713726. [Crossref]
42. Grant E. R., Spivey M. J. (2003). "Eye movements and problem solving guiding attention guides thought", Psychol. Sci. Vol 14, 462466. [Crossref]
43. Grant K. W., Walden B. E., Seitz P. F. (1998). "Auditory–visual speech recognition by hearing-impaired subjects: consonant recognition, sentence recognition, and auditory–visual integration", J. Acoust. Soc. Am. Vol 103, 26772690. [Crossref]
44. Hairston W. D., Laurienti P. J., Mishra G., Burdette J. H., Wallace M. T. (2003). "Multisensory enhancement of localization under conditions of induced myopia", Exp. Brain Res. Vol 152, 404408. [Crossref]
45. Hairston W. D., Burdette J. H., Flowers D. L., Wood F. B., Wallace M. T. (2005). "Altered temporal profile of visual–auditory multisensory interactions in dyslexia", Exp. Brain Res. Vol 166, 474480. [Crossref]
46. Hershenson M. (1962). "Reaction time as a measure of intersensory facilitation", J. Exp. Psychol. Vol 63, 289293. [Crossref]
47. Hillock A. R., Powers A. R., Wallace M. T. (2011). "Binding of sights and sounds: age-related changes in multisensory temporal processing", Neuropsychologia Vol 49, 461467. [Crossref]
48. Hillock-Dunn A., Wallace M. T. (2012). "Developmental changes in the multisensory temporal binding window persist into adolescence", Dev. Sci. Vol 15, 688696. [Crossref]
49. Husserl E. (1991). On the Phenomenology of the Consciousness of Internal Time (1893–1917), Vol Vol. 4. Springer Science & Business Media, Dordrecht, The Netherlands. [Crossref]
50. Irwin J. R., Tornatore L. A., Brancazio L., Whalen D. H. (2011). "Can children with autism spectrum disorders “hear” a speaking face?" Child Dev. Vol 82, 13971403. [Crossref]
51. Just M. A., Carpenter P. A. (1985). "Cognitive coordinate systems: accounts of mental rotation and individual differences in spatial ability", Psychol. Rev. Vol 92, 137172. [Crossref]
52. Keetels M., Vroomen J. (2007). "No effect of auditory–visual spatial disparity on temporal recalibration", Exp. Brain Res. Vol 182, 559565. [Crossref]
53. Keetels M., Vroomen J. (2008). "Temporal recalibration to tactile–visual asynchronous stimuli", Neurosci. Lett. Vol 430, 130134. [Crossref]
54. King A. J. (2005). "Multisensory integration: strategies for synchronization", Curr. Biol. Vol 15, R339R341. [Crossref]
55. King A. J., Calvert G. A. (2001). "Multisensory integration: perceptual grouping by eye and ear", Curr. Biol. Vol 11, R322R325. [Crossref]
56. Knoblich G., Ohlsson S., Raney G. E. (2001). "An eye movement study of insight problem solving", Mem. Cogn. Vol 29, 10001009. [Crossref]
57. Kujala T., Lepistö T., Näätänen R. (2013). "The neural basis of aberrant speech and audition in autism spectrum disorders", Neurosci. Biobehav. Rev. Vol 37, 697704. [Crossref]
58. Kwakye L. D., Foss-Feig J. H., Cascio C. J., Stone W. L., Wallace M. T. (2011). "Altered auditory and multisensory temporal processing in autism spectrum disorders", Front. Integr. Neurosci. Vol 4, 129. DOI:. [Crossref]
59. Lewkowicz D. J. (1996). "Perception of auditory–visual temporal synchrony in human infants", J. Exp. Psychol. Hum. Percept. Perform. Vol 22, 10941106. [Crossref]
60. Lewkowicz D. J. (2010). "Infant perception of audio-visual speech synchrony", Dev. Psychol. Vol 46, 6677. [Crossref]
61. Lewkowicz D. J., Flom R. (2014). "The audiovisual temporal binding window narrows in early childhood", Child Dev. Vol 85, 685694. [Crossref]
62. Lovelace C. T., Stein B. E., Wallace M. T. (2003). "An irrelevant light enhances auditory detection in humans: a psychophysical analysis of multisensory integration in stimulus detection", Cognitive Brain Tesearch Vol 17, 447453. [Crossref]
63. Massaro D. W., Cohen M. M., Smeele P. M. (1996). "Perception of asynchronous and conflicting visual and auditory speech", J. Acoust. Soc. Am. Vol 100, 17771786. [Crossref]
64. Mednick S. (1962). "The associative basis of the creative process", Psychol. Rev. Vol 69, 220232. [Crossref]
65. Mégevand P., Molholm S., Nayak A., Foxe J. J. (2013). "Recalibration of the multisensory temporal window of integration results from changing task demands", PLoS ONE Vol 8, e71608. DOI:. [Crossref]
66. Molholm S., Ritter W., Murray M. M., Javitt D. C., Schroeder C. E., Foxe J. J. (2002). "Multisensory auditory–visual interactions during early sensory processing in humans: a high-density electrical mapping study", Cogn. Brain Res. Vol 14, 115128. [Crossref]
67. Mongillo E. A., Irwin J. R., Whalen D. H., Klaiman C., Carter A. S., Schultz R. T. (2008). "Audiovisual processing in children with and without autism spectrum disorders", J. Autism Dev. Disord. Vol 38, 13491358. [Crossref]
68. Navarra J., Vatakis A., Zampini M., Soto-Faraco S., Humphreys W., Spence C. (2005). "Exposure to asynchronous audiovisual speech extends the temporal window for audiovisual integration", Cogn. Brain Res. Vol 25, 499507. [Crossref]
69. Noel J. P., Wallace M. T., Orchard-Mills E., Alais D., Van der Burg E. (2015). "True and perceived synchrony are preferentially associated with particular sensory pairings", Sci. Rep. Vol 5, 17467. DOI:. [Crossref]
70. Ohlsson S. (2012). "The problems with problem solving: reflections on the rise, current status, and possible future of a cognitive research paradigm", J. Problem Solv. Vol 5, 101128.
71. Pearl D., Yodashkin-Porat D., Katz N., Valevski A., Aizenberg D., Sigler M., Weizman A., Kikinzon L. (2009). "Differences in audiovisual integration, as measured by McGurk phenomenon, among adult and adolescent patients with schizophrenia and age-matched healthy control groups", Compr. Psychiatry Vol 50, 186192. [Crossref]
72. Powers A. R., Hillock A. R., Wallace M. T. (2009). "Perceptual training narrows the temporal window of multisensory binding", J. Neurosci. Vol 29, 1226512274. [Crossref]
73. Powers A. R., Hevey M. A., Wallace M. T. (2012). "Neural correlates of multisensory perceptual learning", J. Neurosci. Vol 32, 62636274. [Crossref]
74. Raven J. C. (1965). Advanced Progressive Matrices: Sets I and II. Lewis, London, UK.
75. Ross L. A., Saint-Amour D., Leavitt V. M., Molholm S., Javitt D. C., Foxe J. J. (2007). "Impaired multisensory processing in schizophrenia: deficits in the visual enhancement of speech comprehension under noisy environmental conditions", Schizophr. Res. Vol 97, 173183. [Crossref]
76. Russo N., Foxe J. J., Brandwein A. B., Altschuler T., Gomes H., Molholm S. (2010). "Multisensory processing in children with autism: high-density electrical mapping of auditory–somatosensory integration", Autism Res. Vol 3, 253267. [Crossref]
77. Schall J. D., Hanes D. P. (1993). "Neural basis of saccade target selection in frontal eye field during visual search", Nature Vol 366, 467469. [Crossref]
78. Schooler J. W., Melcher J. (1995). "The ineffability of insight", in: The Creative Cognition Approach, Smith S. M., Ward T. B., Finke R. A. (Eds), pp.  97133. MIT Press, Cambridge, MA, USA.
79. Sekuler R., Sekuler A. B., Lau R. (1997). "Sound alters visual motion perception", Nature Vol 385, 308. [Crossref]
80. Shams L. (2002). "Integration in the brain — the subconscious alteration of visual perception by cross-modal integration", Sci. Consc. Rev. Vol 1, 14.
81. Spearman C., Wynn-Jones L. (1951). Human Ability. Macmillan, London, UK.
82. Spence C., Baddeley R., Zampini M., James R., Shore D. I. (2003). "Multisensory temporal order judgments: when two locations are better than one", Percept. Psychophys. Vol 65, 318328. [Crossref]
83. Spence C., Squire S. (2003). "Multisensory integration: maintaining the perception of synchrony", Curr. Biol. Vol 13, R519R521. [Crossref]
84. Stein B. E., Stanford T. R. (2008). "Multisensory integration: current issues from the perspective of the single neuron", Nat. Rev. Neurosci. Vol 9, 255266. [Crossref]
85. Stevenson R. A., James T. W. (2009). "Audiovisual integration in human superior temporal sulcus: inverse effectiveness and the neural processing of speech and object recognition", Neuroimage Vol 44, 12101223. [Crossref]
86. Stevenson R. A., Wallace M. T. (2013). "Multisensory temporal integration: task and stimulus dependencies", Exp. Brain Res. Vol 227, 249261. [Crossref]
87. Stevenson R. A., Zemtsov R. K., Wallace M. T. (2011). "Multisensory illusions and the temporal binding window", Iperception Vol 2, 903.
88. Stevenson R. A., Zemtsov R. K., Wallace M. T. (2012). "Individual differences in the multisensory temporal binding window predict susceptibility to audiovisual illusions", J. Exp. Psychol. Hum. Percept. Perform. Vol 38, 15171529. [Crossref]
89. Stevenson R. A., Wilson M. M., Powers A. R., Wallace M. T. (2013). "The effects of visual training on multisensory temporal processing", Exp. Brain Res. Vol 225, 479489. [Crossref]
90. Stevenson R. A., Siemann J. K., Woynaroski T. G., Schneider B. C., Eberly H. E., Camarata S. M., Wallace M. T. (2014a). "Brief report: arrested development of audiovisual speech perception in autism spectrum disorders", J. Autism Dev. Disord Vol 44, 14701477. [Crossref]
91. Stevenson R. A., Segers M., Ferber S., Barense M. D., Wallace M. T. (2014b). "The impact of multisensory integration deficits on speech perception in children with autism spectrum disorders", Front. Psychol. Vol 5, 379. DOI:.
92. Stevenson R. A., Siemann J. K., Schneider B. C., Eberly H. E., Woynaroski T. G., Camarata S. M., Wallace M. T. (2014c). "Multisensory temporal integration in autism spectrum disorders", J. Neurosci. Vol 34, 691697. [Crossref]
93. Stevenson R. A., Segers M., Ferber S., Barense M. D., Camarata S., Wallace M. T. (in press). "Keeping time in the brain: autism spectrum disorder and audiovisual temporal processing", Autism Res., DOI:.
94. Stone J. V., Hunkin N. M., Porrill J., Wood R., Keeler V., Beanland M., Port M., Porter N. R. (2001). "When is now? Perception of simultaneity", Proc. R. Soc. Lond. B Biol. Sci. Vol 268, 3138. [Crossref]
95. Sumby W. H., Pollack I. (1954). "Visual contribution to speech intelligibility in noise", J. Acoust. Soci. Am. Vol 26, 212215. [Crossref]
96. Szycik G. R., Münte T. F., Dillo W., Mohammadi B., Samii A., Emrich H. M., Dietrich D. E. (2009). "Audiovisual integration of speech is disturbed in schizophrenia: an fMRI study", Schizophr. Res. Vol 110, 111118. [Crossref]
97. Thomas L. E., Lleras A. (2007). "Moving eyes and moving thought: on the spatial compatibility between eye movements and cognition", Psychonom. Bull. Rev. Vol 14, 663668. [Crossref]
98. Vaillant-Molina M., Bahrick L. E. (2012). "The role of intersensory redundancy in the emergence of social referencing in 51/2-month-old infants", Dev. Psychol. Vol 48, 19. [Crossref]
99. Van der Smagt M. J., van Engeland H., Kemner C. (2007). "Brief report: can you see what is not there? Low-level auditory–visual integration in autism spectrum disorder", J. Autism Dev. Disord. Vol 37, 20142019. [Crossref]
100. Van Eijk R. L., Kohlrausch A., Juola J. F., Van de Par S. (2008). "Audiovisual synchrony and temporal order judgments: effects of experimental method and stimulus type", Percept. Psychophys. Vol 70, 955968. [Crossref]
101. Van Wassenhove V., Grant K. W., Poeppel D. (2007). "Temporal window of integration in auditory–visual speech perception", Neuropsychologia Vol 45, 598607. [Crossref]
102. Vatakis A., Bakou A. E. (2015). "Distorted multisensory experiences of order and simultaneity", in: Time Distortions in Mind: Temporal Processing in Clinical Populations, Vatakis A., Allman M. (Eds), pp.  136. Brill, Leiden, The Netherlands.
103. Vatakis A., Spence C. (2006). "Audiovisual synchrony perception for music, speech, and object actions", Brain Res. Vol 1111, 134142. [Crossref]
104. Vatakis A., Spence C. (2010). "Audiovisual temporal integration for complex speech, object-action, animal call, and musical stimuli", in: Multisensory Object Perception in the Primate Brain, Naumer M. J., Kaiser J. (Eds), pp.  95121. Springer-Verlag, Berlin & Heidelberg, Germany. [Crossref]
105. Vatakis A., Navarra J., Soto-Faraco S., Spence C. (2008). "Audiovisual temporal adaptation of speech: temporal order versus simultaneity judgments", Exp. Brain Res. Vol 185, 521529. [Crossref]
106. Visser E., Zwiers M. P., Kan C. C., Hoekstra L., Van Opstal A. J., Buitelaar J. K. (2013). "Atypical vertical sound localization and sound-onset sensitivity in people with autism spectrum disorders", J. Psychiatry Neurosci. Vol 38, 398406. [Crossref]
107. Vroomen J., Keetels M. (2010). "Perception of intersensory synchrony: a tutorial review", Atten. Percept. Psychophys. Vol 72, 871884. [Crossref]
108. Vroomen J., Keetels M., De Gelder B., Bertelson P. (2004). "Recalibration of temporal order perception by exposure to audio-visual asynchrony", Cogn. Brain Res. Vol 22, 3235. [Crossref]
109. Wallace M. T., Stevenson R. A. (2014). "The construct of the multisensory temporal binding window and its dysregulation in developmental disabilities", Neuropsychologia Vol 64, 105123. [Crossref]
110. Woynaroski T. G., Kwakye L. D., Foss-Feig J. H., Stevenson R. A., Stone W. L., Wallace M. T. (2013). "Multisensory speech perception in children with autism spectrum disorders", J. Autism Dev. Disord. Vol 43, 28912902. [Crossref]
111. Zabelina D. L., Beeman M. (2013). "Short-term attentional perseveration associated with real-life creative achievement", Front. Psychol. Vol 4, 191. DOI:. [Crossref]
112. Zabelina D. L., O’Leary D., Pornpattananangkul N., Nusslock R., Beeman M. (2015a). "Creativity and sensory gating indexed by the P50: selective versus leaky sensory gating in divergent thinkers and creative achievers", Neuropsychologia Vol 69, 7784. [Crossref]
113. Zabelina D., Saporta A., Beeman M. (2015b). "Flexible or leaky attention in creative people? Distinct patterns of attention for different types of creative thinking", Mem. Cogn. Vol 1, 111.
114. Zampini M., Shore D. I., Spence C. (2003). "Audiovisual temporal order judgments", Exp. Brain Res. Vol 152, 198210. [Crossref]
115. Zampini M., Guest S., Shore D. I., Spence C. (2005). "Audio-visual simultaneity judgments", Percept. Psychophys. Vol 67, 531544. [Crossref]
116. Zmigrod S., Hommel B. (2011). "The relationship between feature binding and consciousness: evidence from asynchronous multi-modal stimuli", Consc. Cogn. Vol 20, 586593. [Crossref]
117. Zmigrod S., Zmigrod L. (2015). "Zapping the gap: reducing the multisensory temporal binding window by means of transcranial direct current stimulation (tDCS)", Consc. Cogn. Vol 35, 143149. [Crossref]
118. Zmigrod S., De Sonneville L. M. J., Colzato L. S., Swaab H., Hommel B. (2013). "Cognitive control of feature bindings: evidence from children with autistic spectrum disorder", Psychol. Res. Vol 77, 147154. [Crossref]
119. Zmigrod S., Zmigrod L., Hommel B. (2015). "Zooming into creativity: individual differences in attentional global-local biases are linked to creative thinking", Front. Psychol. Vol 6, 1647. DOI:. [Crossref]

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