Publications
Causal evidence for a role of theta and alpha oscillations in the control of working memory. Current Biology 30, 1748-1754 (2020).
. Dissociable neural systems support the learning and transfer of hierarchical control structure. BioRxiv (2020). doi:10.1101/2020.01.16.909978
. Practical considerations for navigating Registered Reports. Trends in Neurosciences 42, 568-672 (2019).
. Dissociating the causal roles of frontal and parietal cortex in working memory capacity. Nature Human Behaviour Registered Report, accepted-in-principle (2018).
. Reaffirming the sensory recruitment account of working memory. Trends in Cognitive Sciences 22, 190-192 (2018).
. Serial dependence across perception, attention, and memory. Trends in Cognitive Sciences 21, 493-497 (2017).
. Overlapping neural response to the pain or harm of people, animals, and nature. Neuropsychologia 256-273 (2016).
. Striatal prediction errors support dynamic control of declarative memory decisions. Nature Communications 7, 13061 (2016).
. Selecting and tracking multiple objects. Wiley Interdisciplinary Reviews: Cognitive Science 6, 109-118 (2015).
. Ventral striatum and the evaluation of memory retrieval strategies. Journal of Cognitive Neuroscience 26, 1928-1948 (2014).
. Cultural modulation of the neural correlates of emotional pain perception: The role of other-focusedness. Neuropsychologia 51, 1177-1186 (2013).
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Quality trumps quantity at reducing memory errors: Implications for retrieval monitoring and mirror effects. Journal of Memory and Language 65, 363-377 (2011).
. Dissociating source memory decisions in the prefrontal cortex: fMRI of diagnostic and disqualifying monitoring. Journal of Cognitive Neuroscience 22, 955-969 (2010).
. Tracking multiple objects is limited only by object spacing, not by speed, time, or capacity. Psychological Science 21, 920-925 (2010).
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