International Centre for Theoretical Sciences Courses

Modern Numerical Methods in Computational Relativity - Lecture 4

Explore advanced numerical techniques in computational relativity, focusing on solving Einstein's field equations for gravitational-wave astronomy and astrophysical phenomena modeling.

• YouTube
• 1 hour 27 minutes
• On-Demand
• Free Video

Introduction to Theory and Numerics of Partial Differential Equations - Lecture 4

Explore advanced concepts in partial differential equations, focusing on theory and numerical methods for solving complex mathematical problems in physics and engineering.

• YouTube
• 1 hour 34 minutes
• On-Demand
• Free Video

Next Generation Numerical Relativity for Modeling Binary Black Holes - Lecture 1

Explore modern numerical methods in computational relativity for modeling binary black hole systems, focusing on advanced techniques and recent developments in the field.

• YouTube
• 1 hour 33 minutes
• On-Demand
• Free Video

Numerical Relativity: Mathematical Formulation - Lecture 5

Explore mathematical foundations of Numerical Relativity, essential for modeling gravitational waves from black hole mergers and other high-energy astrophysical phenomena.

• YouTube
• 1 hour 35 minutes
• On-Demand
• Free Video

High Resolution Shock Capturing Scheme for Non-Relativistic Hydrodynamics - Lecture 2

Explore advanced numerical techniques for modeling shock waves in non-relativistic fluid dynamics, enhancing understanding of complex hydrodynamic phenomena in astrophysical simulations.

• YouTube
• 1 hour 36 minutes
• On-Demand
• Free Video

Numerical Relativity: Mathematical Formulation - Lecture 2

Explore mathematical foundations of Numerical Relativity, crucial for modeling gravitational waves from black hole mergers and other high-energy astrophysical phenomena.

• YouTube
• 1 hour 36 minutes
• On-Demand
• Free Video

The Vicsek Model - An Update and the Fragility of Its Ordered Phases to Quenched

Explores the Vicsek model in active matter physics, focusing on ordered phase fragility under quenched disorder. Updates on recent developments and implications for collective behavior in complex environments.

• YouTube
• 3 hours 43 minutes
• On-Demand
• Free Video

On the Hasse Principle for Reductive Algebraic Groups Over Finitely Generated

Explore the Hasse Principle for reductive algebraic groups over finitely generated fields, delving into advanced number theory and algebraic geometry concepts.

• YouTube
• 1 hour 8 minutes
• On-Demand
• Free Video

Uniform Stability of Higher-rank Lattices - Lecture 2

Explore uniform stability in higher-rank arithmetic groups, focusing on advanced mathematical concepts and their applications in group theory and geometry.

• YouTube
• 1 hour 24 minutes
• On-Demand
• Free Video

Cooperative Kinetics of Living Liquid Crystals by Sanjay Puri

Explores cooperative kinetics in living liquid crystals, examining active matter dynamics and their applications in biological systems and collective behavior.

• YouTube
• 35 minutes
• On-Demand
• Free Video

Collective Motion of Finite Flocks by Vishwesha Guttal

Explore collective motion in finite flocks, examining dynamics and patterns of group behavior in active matter systems like bird flocks and fish schools.

• YouTube
• 36 minutes
• On-Demand
• Free Video

Active Fluctuations and Microphase Separation in the Cell Nucleus by Jacques Prost

Explores active fluctuations and microphase separation in cell nuclei, discussing recent developments in active matter research and its applications to biological systems.

• YouTube
• 31 minutes
• On-Demand
• Free Video

Flocks in Fluids - Simha-Ramaswamy Instability and Beyond by Ananyo Maitra

Explore the Simha-Ramaswamy instability and its implications for flocks in fluids. Gain insights into active matter physics and collective behavior in biological systems.

• YouTube
• 28 minutes
• On-Demand
• Free Video

Impact of Inertia and Reciprocity in Active Matter by Debashish Chaudhuri

Explore the effects of inertia and reciprocity on active matter systems, examining their influence on collective behavior and dynamics in non-equilibrium environments.

• YouTube
• 30 minutes
• On-Demand
• Free Video

The Allure of Active Matter - Lecture 2

Explore active matter physics: particles converting energy into work. Delve into recent research, connections to driven systems, and future directions in nonequilibrium and soft-matter physics.

• YouTube
• 1 hour 5 minutes
• On-Demand
• Free Video