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Ruby Potash

3 papers in the library · 4 citations · publishing 2025-2026

Papers

Endogenous suspension and reset of consciousness: 7T fMRI brain mapping of the extended cessation meditative endpoint

bioRxiv Preprint Server September 6, 2025 Winson F.z. Yang, Akila Kadambi, Kilian Abellaneda-Pérez et al. 4 citations preprint

An advanced meditative state called extended cessation (EC), where consciousness is voluntarily suspended and later resumes with heightened clarity and equanimity, provides a natural model for studying consciousness. Using ultra-high-resolution 7T fMRI with dense sampling of three individuals, the research mapped whole-brain activity, connectivity, gradients, and eigenmodes during EC, linking them to brain chemistry and cognitive maps. EC increased activity in sensory regions, reduced activity in higher-order association areas, subcortex, and brainstem, expanded the principal cortical gradient, and decreased low-order global eigenmodes.

EEG brain reconfiguration during meditation-induced extended cessation of consciousness: A dense-sampling multi-participant microstate study

bioRxiv Preprint Server February 10, 2026 David Zarka, Winson F.z. Yang, Abel Rassat et al. preprint

Extended cessation (EC) is a rare meditative state in which conscious experience temporarily stops, followed by heightened perception and emotional balance. In five highly trained meditators, electroencephalographic microstate analysis revealed that EC altered brain activity patterns linked to self-referential processing. Specifically, microstate B occurred less often and for shorter durations, while microstate C occurred more often and for longer durations. Transition probabilities also shifted, with more transitions from A and B to C and fewer from A to B. These changes appeared across delta, theta, and beta frequency bands, with additional band-specific effects for microstates A and D. The findings suggest EC involves a reweighting of self-referential and sensory processes.

The neuroscience of highly stable, positive, and refined states of consciousness during jhana-type advanced concentration absorption meditation (ACAM-J).

bioRxiv : the preprint server for biology November 13, 2025 Winson F Z Yang, Ruby Potash, Grace Mackin et al. preprint

Advanced concentration absorption meditation (ACAM-J) produces a distinct, structured mode of awareness characterized by stable positive states and reduced narrative thought. In the first ultra-high-field (7T) fMRI study of jhana meditation, neural trajectories across eight successive states showed reorganization from anterior to posterior brain regions, flattening of cortical hierarchies, and nonlinear changes in global brain harmonics. These brain changes were tightly linked to equanimity, attentional stability, and behavior. Brain activity patterns associated with ACAM-J related more to attentional monitoring than to suffering-related processes. The findings suggest advanced meditation offers a framework for understanding psychological transformation and supporting human well-being.