ICTP-SAIFR Courses

Critical Transitions in Complex Dynamical Systems: Theory and Implications for Neuroscience - Class 3

Explore critical transitions in complex dynamical systems, focusing on theoretical frameworks and their applications in neuroscience and network synchronization patterns.

• YouTube
• 1 hour 13 minutes
• Self-Paced
• Free Video

Models of Coupled Oscillators to Study the Parcellation of the Brain Pial Arterial Network

Explore mathematical models of coupled oscillators and their application in understanding brain arterial networks, with focus on pial arterial system parcellation and dynamics.

• YouTube
• 18 minutes
• Self-Paced
• Free Video

Quantum-Inspired Super-Resolution Microscopy

Explore quantum-inspired techniques in super-resolution microscopy and their groundbreaking applications in medical imaging, focusing on advanced methodologies for enhanced visualization.

• YouTube
• 1 hour 1 minute
• Self-Paced
• Free Video

Quantum Sensing with Defects in Solids

Explore quantum sensing applications using solid-state defects, focusing on advanced detection techniques and their practical implementations in quantum technologies.

• YouTube
• 47 minutes
• Self-Paced
• Free Video

Quantum Sensing with Atoms

Explore the principles and applications of quantum sensing technology using atomic systems in this advanced physics research presentation from USP.

• YouTube
• 56 minutes
• Self-Paced
• Free Video

Módulo para Vestibulares - Química - Aula 1

Explore conceitos fundamentais de química para a segunda fase do vestibular com foco em tópicos essenciais para o sucesso nas provas de admissão universitária.

• YouTube
• 2 hours 2 minutes
• Self-Paced
• Free Video

Spatiotemporal Patterns in Animal Movement: From Trajectories to Interactions - Class 2

Explore advanced concepts in animal movement patterns, focusing on trajectory analysis and interaction dynamics in biological physics across different scales.

• YouTube
• 1 hour 3 minutes
• Self-Paced
• Free Video

Self-Organisation and Pattern Formation in Living and Synthetic Cells - Class 4

Explore advanced concepts in biological pattern formation, focusing on self-organization mechanisms within living and synthetic cellular systems and their fundamental principles.

• YouTube
• 1 hour 32 minutes
• Self-Paced
• Free Video

Stochastic Pattern Formation in Space and Time: From the Brain to the Biosphere - Class 4

Explore stochastic pattern formation principles across biological systems, from neural networks to ecosystem dynamics, with insights into spatial-temporal mathematical modeling.

• YouTube
• 1 hour 42 minutes
• Self-Paced
• Free Video

Integrating Different Levels of Pattern Formation: From Sub-cellular to Multi-cellular Structures - Class 1

Explore pattern formation across biological scales, from subcellular structures to multicellular systems, examining fundamental principles and mechanisms of biological organization.

• YouTube
• 1 hour 39 minutes
• Self-Paced
• Free Video

Stochastic Pattern Formation in Space and Time: From the Brain to the Biosphere - Class 5

Explore stochastic pattern formation principles across biological systems, from neural networks to ecosystem dynamics, with insights into spatial-temporal mathematical modeling.

• YouTube
• 1 hour 48 minutes
• Self-Paced
• Free Video

The Physics of Spatial Ecology - Class 4

Explore the fundamental principles of spatial ecology through physics-based approaches, examining pattern formation and biological systems across different scales in natural environments.

• YouTube
• 1 hour 16 minutes
• Self-Paced
• Free Video

Lévy Walks and Search Optimization: Free Will, Randomness and Determinism in Animal Locomotion

Explore the fascinating intersection of Lévy walks, search optimization, and the concepts of free will, randomness, and determinism in animal movement patterns.

• YouTube
• 1 hour 39 minutes
• Self-Paced
• Free Video

Standard Neuroscience Assumptions and the Dynamical Alternative - Class 2

Explore the dynamical alternative to standard neuroscience assumptions with Donald Katz, examining new perspectives on understanding brain function and cognitive processes.

• YouTube
• 42 minutes
• Self-Paced
• Free Video

Standard Neuroscience Assumptions and the Dynamical Alternative - Class 1

Explore the contrast between traditional neuroscience frameworks and dynamic systems approaches in understanding brain function with Donald Katz from Brandeis University.

• YouTube
• 1 hour 3 minutes
• Self-Paced
• Free Video