Low-spatial-frequency information facilitates threat detection in a . . . Here, we aimed to investigate the contribution of spatial frequency information to threat detection by using three response types, including manual responses, eye movements, and reaching movements, together with a priming paradigm
Sensing fear: fast and precise threat evaluation in human sensory . . . A sensory account is proposed to highlight smart initial threat evaluation in the human sensory cortex, evoking multifaceted threat processing across a distributed neural network, orchestrated to drive rich, flexible threat responses in humans
An auditory low road for threat in humans sensitive to fast temporal . . . Building on animal evidence that high-rate amplitude-modulated (highAM) sounds preferentially engage magnocellular processing, we used behavioral, physiological, and neuroimaging measures to search for an auditory "low road" for threat in humans responsive to magnocellular-associated features
New Study Reveals the Key Role of Low-Spatial-Frequency Information in . . . The spatial frequency component is a critical but rarely explored factor in unconscious fear conditioning Many studies have convergently shown that the processing of threat-related stimuli might predominantly rely on the low-spatial-frequency (LSF) components
Sensing fear: fast and precise threat evaluation in human sensory . . . A sensory account is proposed to highlight smart initial threat evaluation in the human sensory cortex, evoking multifaceted threat processing across a distributed neural network, orchestrated to drive rich, flexible threat responses in humans
Sensing fear: Fast-and-precise threat evaluation in human sensory . . . A sensory account is proposed to highlight “smart” initial threat evaluation in human sensory cortex, evoking multifaceted threat processing across a distributed neural network, orchestrated to drive rich, flexible threat responses in humans