Ruuskanen, V.; Mathot, S.

In near-threshold detection tasks, larger pre-stimulus pupil size is associated with improved accuracy. However, previous studies have used black and white peripherally presented stimuli, leaving open the question of whether the relationship persists when targets differ in their colour or eccentricity. Across three experiments (in years 2022-2024), we tested a total of 124 participants while systematically varying the lighting conditions and target properties in a near-threshold detection task. Light conditions ranged from dark to dim to bright, with the dark condition including a period of dark-adaptation. Possible target colours were blue and red on a black background (dark condition), blue and red on a grey background (dim condition), or yellow and cyan on a white background (bright condition). Possible target eccentricities ranged from parafoveal to peripheral, in a continuous manner (experiment 3) or as two predefined near and far eccentricities (experiments 1 & 2). Across all experiments we show that larger pre-stimulus pupil size is associated with improved performance. This large-pupil advantage is not modulated by the colour or eccentricity of the targets, the illumination of the testing room, or retinal adaptation-state. We conclude that the phenomenon is robust, indicating that pupil size affects vision in a behaviourally relevant manner, regardless of the exact conditions.