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Empirical verification of the violation of the temporal Bell inequality in bistable perception
- Publication Year :
- 2021
-
Abstract
- Introduction The purpose of the present study is to investigate quantum-like properties of mental states in bistable perception. In order to do this, we tested whether the temporal Bell inequality applied to bistable perception experiments[1] can be violated. In the present study, we used visual stimuli [2], where we can continuously and systematically manipulate two types of ambiguities in the perceived rotation of dots. When the rotation angle is large, the stimuli induce bistable percept. When the angle is small, the direction of rotation of the stimuli becomes difficult to judge. We use the stimuli to test if the temporal Bell inequality can be violated, and if so, under what parameter regime, it can be violated. Method Two patterns were presented alternately: a visual stimulus consisting of four disks, and one in which the disks were rotated by a specific angle (5-45 degrees) in each trial [FIG. 1(A)]. When the angle of rotation was close to 45 degrees, stimuli were perceived to rotate in one of the two directions for a while with occasional reversals at random times (i.e., bistable perception). When the angle of rotation was close to 5 degrees, no rotation was perceived beyond the angle of rotation of the stimulus, and left and right rotations were perceived alternately, but the angle of rotation was so small that it was difficult to determine the direction of rotation [FIG. 1(B)]. At two time points after the beep, the participants responded by pressing a button in the direction of rotation that they saw at that time [FIG. 1(C)]. Reference 1H. Atmanspacher, and T. Filk, J. Math. Psychol. 54, 314-321 (2010). 2S. Takei and S. Nishida, J. Vision. 10, 23 (2010). 3M. M. Wilde and A. Mizel, Found. Phys. 42, 256 (2012). Acknowledgement This work was supported by JSPS KAKENHI JP20H05711 and MEXT Q-LEAP Grant Number JPMXS0120330644.<br />The 4th international forum on quantum metrology and sensing / Quantum innovation 2021
Details
- Language :
- English
- Database :
- OpenAIRE
- Accession number :
- edsair.jairo.........891bb261b2063008bf3456c15338f9a0