Dehaene, Stanislas, et al. ‘Imaging unconscious semantic priming’, Nature 395.6702 (1998): 597–600
Delgado, Mauricio R., Robert H. Prank and Elisabeth A. Phelps. ‘Perceptions of moral character modulate the neural systems of reward during the trust game’, Nature Neuroscience 8.11 (2005): 1611–18
Di Telia, Rafael, et al. ‘Conveniently upset: avoiding altruism by-distorting beliefs about others’ altruism’, The American Economic Review 105.11 (201.5): 341.6–42
Diiksterhuis, Ap, et al. ‘On making the right choice: the deliberation-without-attention effect’, Science311.5763 (2006): 1005–7
Drugowitsch, Jan, et al. ‘Tuning the speed-accuracy trade-оff to maximize reward rate in multisensory decision-making’, Etife 4 (2015): e06678
Fleming, Stephen M., et al. ‘Relating introspective accuracy to individual differences in brain structure’, Science 329.5998 (2010): 1.54.1–3
Gold, Joshua L, and Michael N. Shadlen. ‘Banburismus and the brain: decoding the relationship between sensory stimuli, decisions, and reward’, Neuron 36.2 (2002): 299–308
Graziano, Martin, and Mariano Sigman. ‘The spatial and temporal construction of confidence in the visual scene’, PLoS Опe 4.3 (2009): e4909
Greene, Joshua, and Jonathan Haidt. ‘How (and where) does moral judgment work?’, Trends in Cognitive Sciences 6.12 (2002): 517–23
Greene, Joshua D., et al. ‘An fMRI investigation of emotional engagement in moral judgment’. Science293.5537 (2001): 2105–8
Guastella, Adam J., and Ian B. Hiekie. ‘Oxytocin treatment, circuitry, and autism: a critical review of the literature placing oxytocin into the autism context’, Biological Psychiatry 79.3 (2016): 234–42
Haley, Kevin J., and Daniel M.. T. Fessler. ‘Nobody’s watching?: Subtle cues affect, generosity in an anonymous economic game’, Evolution and Human Behavior 26.3 (2005): 245–56
Hall, Joshua C. Homer. Economicus: The Simpsons mid Economics. Stanford University Press, 2014
Hanks, Timothy D., Jochen Ditterich and Michael N. Shadlen. ‘Micro-stimulation of macaque area LIP affects decision-making in a motion discrimination task’, Nature Neuroscience 9.5 (2006): 682–9
Henrich, Joseph, et al, ‘In search of homo economicus: behavioral experiments in 15 small-scale societies’, The American Economic Review 91.2 (2001): 73–8
Johnson, Eric J., and Daniel Goldstein. ‘Medicine. Do defaults save lives?’, Science 302.5649 (2003): 1338–9
Kahneman, Daniel. Thinking, Fast and Slow, Macmillan, 2011
Kosfeld, Michael, et al. ‘Oxytocin increases trust in humans’, Nature 435.7042 (2005): 673–6
Leone, Maria J., et al. ‘The tell-tale heart: heart rate fluctuations index objective and subjective events during a game of chess’, Frontiers in Human Neuroscience (2012): doi 10.3389/fnhum. 201.2.00273
Miller, Greg. ‘The promise and perils of oxytocin’, Science 339.61.17 (2013): 267–9
Pedersen, Cort A., et al. ‘Oxytocin induces maternal behavior in virgin female rats’, Science 216.4546 (1982): 648–50
Reyna, Valerie 11, and Frank Farley. ‘Risk and rationality in adolescent decision making: implications for theory, practice, and public policy’, Psychological Science in the Public Interest 7.1 (2006): 1–44
Rosenblat, Tanya S. ‘The beauty premium: physical attractiveness and gender in dictator games’, Negotiation Journal 24.4 (2008): 465–81
Salles, Alejo, et al. ‘The metacognitive abilities of children and adults’, Cognitive Development 40 (201.6): 101–10
Shadlen, Michael N. and William T. Newsome. ‘Neural basis of a perceptual decision in the parietal cortex (area LIP) of the rhesus monkey’. Journal of Neurophysiology 86.4 (2001): 191.6–36
Sharot, Tali, Christoph W. Korn and Raymond J. Dolan. ‘How unrealistic optimism is maintained in the face of reality’, Nature Neuroscience 14.11. (201.1): 1475–9
Sharot, Tali, et al. ‘Neural mechanisms mediating optimism bias’, Nature 450,7166 (2007): 102–5
Strack, Fritz, Leonard L. Martin and Sabine Stepper. ‘Inhibiting and facilitating conditions of the human smile: a nonobtrusive test of the facial feedback hypothesis’, Journal of Personality and Social Psychology54.5 (1.988): 768
Thorndike, Edward L. ‘A constant error in psychological ratings’, Journal of Applied Psychology 4.1 (1920): 25–9
Todorov, Alexander, et al. ‘Inferences of competence from faces predict election outcomes’, Science308.5728 (2005): 1.623–6
Wedekind, Claus, et al. ‘МНС-dependent mate preferences in humans’, Proceedings of the Royal Society of London B: Biological Sciences 260.1359 (1.995): 245–9
Young, Liane, et al. ‘Disruption of the right temporoparietal junction with transcranial magnetic stimulation reduces the role of beliefs in moral judgments’. Proceedings of the National Academy of Sciences1.07.15 (201.0): 6753–8
Zylberberg, Ariel, Pablo Barttfeld and. Mariano Sigman. ‘The construction of confidence in a perceptual decision’, Frontiers in Integrative Neuroscience 6 (2012): 79
Zylberberg, Ariel, PieterR. Roelfsema and Mariano Sigman. ‘Variance misperception explains illusions of confidence in simple perceptual decisions’, Consciousness and Cognition 27 (2014): 246–53
3. Механизм, конструирующий реальность
Baars, Bernard J. ‘In the theatre of consciousness. Global Workspace Theory, a rigorous scientific theory of consciousness’, Journal of Consciousness Studies 4,4 (1997): 292–309
Bekinschtein, Tristan A., et al. ‘Classical conditioning in the vegetative and minimally conscious state’, Nature Neuroscience 12.10 (2009): 1343–9
Blakemore, Sarah-Jayne, Daniel M. Wolpert and Chris D. Frith. ‘Central cancellation of self-produced tickle sensation’, Nature Neuroscience 1.7 (1998): 635–40
Blakemore, Sarah-Jayne, Daniel Wolpert and Chris Frith. ‘Why can’t you tickle yourself?’, Neuroreport11.11 (2000): R11-R16
Dehaene, Stanislas, and Lionel Naccache. ‘Towards a cognitive neuroscience of consciousness: basic evidence and a workspace framework’, Cognition 79.1 (2001): 1–37
Dehaene, Stanislas, et al. ‘Conscious, preconscious, and subliminal processing: a testable taxonomy’, Trends in Cognitive Sciences 10.5 (2006): 204–11
Dennett, Daniel C. Consciousness Explained. Penguin Books, 1993
Duhamel, Jean-Rene, Carol L. Colby and Michael E. Goldberg. ‘The updating of the representation of visual space in parietal cortex by intended eye movements’, Science 255.5040 (1.992): 90