Examines brain activity through oxygen-level changes, enabling visualization of cognitive and emotional processing.

Maps the diffusion of water molecules to trace white matter tracts and neural connectivity.

Uses radiotracers to measure metabolic activity and neurotransmitter interactions within the brain.

Records magnetic fields generated by neural activity, allowing precise temporal mapping of brain function.

Captures electrical oscillations on the scalp to analyze cortical communication and rhythmic synchronization.

Provides detailed anatomical brain maps, revealing volumetric and morphological changes in neural tissue.

Examines the complex network of neural connections underlying cognition and behavior across brain regions.

Centralized repositories combining multi-modal imaging data for cross-disciplinary neuroinformatics research.

Employs imaging algorithms to generate volumetric models for visualization of brain architecture.

Analyzes synchronized neural activity between distant regions to uncover network-level organization.