Adrian and Erika contribute to analysis of an imaginary time evolution algorithm for quantum computers. Jan. 30, 2019

Nate successfully defends his thesis!

Congratulations Dr. Thomas!

Jan. 24, 2019

Nina publishes paper on anharmonic localization in PbSe. May. 13, 2019

Jaeyun publishes paper on vibrational properties of glasses. Jun. 13, 2019

Nate publishes paper on near field radiation in graphene heterostructures. May. 29, 2019

Nachi passes candidacy. Congratulations!

Jun. 4, 2019

Tomi and Benjamin join the group. Welcome to our newest members!

July 4, 2019

Austin receives the Presidential Early Career Award. Congratulations!

July 8, 2019

Click here for more publications.

Transport phenomena

The microscopic transport processes governing charge and heat flow in solids have only recently become accessible to first-principles numerical tools. Our research focuses on advancing these ab-initio methods to describe the mean and fluctuational transport properties of solids beyond the perturbative regime. Read more here.

Ab-initio condensed matter physics

​Condensed phase ab-initio methods have been remarkably accurate in describing diverse properties of solids but have known deficiencies for certain properties and material classes. We aim to adapt methods from the quantum chemistry community to periodic solids and thereby overcome these limitations, providing a route to accurately describe excited states, non-adiabatic couplings, and related properties of correlated materials. Read more here.

Quantum dynamics

Many-body quantum dynamics underlies some of the most physically rich processes in nature but remains extremely challenging to simulate with classical computers. Our research focuses on identifying physically relevant problems that may be suitable for near-term quantum computers and delineating the classical-quantum boundary. Read more here.

Principal Investigator

Austin J. Minnich

Professor of Mechanical Engineering and Applied Physics

Professional Preparation

BS University of California Berkeley, 2006

MS Massachusetts Institute of Technology, 2008

PhD Massachusetts Institute of Technology, 2011 

Appointments

Professor, California Institute of Technology, 2017-Present

Assistant Professor, California Institute of Technology, 2011-2017

Click here for a copy of Austin's CV

APh 250/ME 201: A numerical introduction to tensor networks for quantum simulation

 Tensor networks have emerged as a powerful tool for the numerical simulation of quantum many-body systems. This course will cover the fundamentals of tensor networks and recent algorithmic developments from a numerical perspective. Emphasis will be placed on both the theoretical foundation and practical numerical implementation of a variety of 1D and 2D tensor network algorithms. For details, click here.

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For previously taught courses, click here.