Kavli Institute for Theoretical Physics Courses

Mesoscopic Open Quantum Systems Under a Microscope

Explore mesoscopic open quantum systems through microscopic analysis with cutting-edge quantum hardware and experimental techniques.

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

Generative Quantum Advantage

Explore generative quantum advantage with Google's Jarrod McClean, examining novel quantum dynamics and breakthrough applications in quantum computing and machine learning.

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

Sharp Transitions in Quantum Circuit Complexity

Explore sharp transitions in quantum circuit complexity and their implications for quantum dynamics and computational theory.

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

Trapped-Ion Quantum Simulation of Chemical Dynamics Beyond Born-Oppenheimer

Explore trapped-ion quantum simulation techniques for modeling chemical dynamics that go beyond the Born-Oppenheimer approximation in this advanced physics presentation.

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

Eigenstate Thermalization in Quantum Systems with Thermal Phase Transitions

Explore eigenstate thermalization in quantum systems undergoing thermal phase transitions through advanced theoretical physics insights and cutting-edge research developments.

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

Measuring Number-Off-Diagonal Observables in Cold-Atom Simulators

Explore advanced quantum measurement techniques for off-diagonal observables in cold-atom quantum simulators with insights from cutting-edge theoretical physics research.

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

Layer Codes as Partially Self-Correcting Quantum Memories

Explore layer codes as quantum memories that partially self-correct errors, advancing fault-tolerant quantum computation through novel error correction mechanisms.

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

Complexity in Black Hole Masses and Spins

Explore how gravitational waves, Gaia observations, and microlensing reveal new stellar mass black hole populations and their complex lifecycles from massive star progenitors to mergers.

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

What Gaia DR4 Could Teach Us About Black Holes in Binaries

Explore how Gaia DR4 reveals dormant black holes in binary systems and advances our understanding of stellar black hole populations alongside gravitational wave discoveries.

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

Toward Industrial-Scale Searches for Isolated Black Holes Using Microlensing

Explore cutting-edge microlensing techniques to detect isolated black holes and advance our understanding of stellar black hole populations and their lifecycles.

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

Insights from the Two-Dimensional Binary Black Hole Mass Distribution

Explore how gravitational waves, Gaia observations, and microlensing reveal new insights into binary black hole mass distributions and stellar evolution processes.

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

Metal-Poor Massive Binaries and Binary Products in the Local Group

Explore metal-poor massive binary systems and their evolution in Local Group galaxies, focusing on stellar black hole formation and gravitational wave source progenitors.

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

Isolated Black Holes in the Milky Way

Explore isolated black holes in the Milky Way through gravitational waves, Gaia observations, and microlensing techniques to understand stellar black hole lifecycles.

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

Isolated Black Holes - The New Astrometric Microlensing Frontier with Roman

Explore how Roman telescope's astrometric microlensing will revolutionize detection of isolated stellar-mass black holes, complementing gravitational wave and Gaia discoveries.

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

The Many Final Fates of Stellar Black Hole Systems

Explore the diverse evolutionary pathways and ultimate destinies of stellar black hole systems through gravitational waves, dormant binaries, and observational breakthroughs.

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