Welcome to the
Our group focuses on developing detectors based on semiconductor devices and superconducting circuits used in radio astronomy and other scientific applications. We work at the intersection of engineering, materials science, and physics. We are part of a vibrant quantum science and engineering environment at Caltech.
Haozhe submits paper on Isotropic plasma-thermal atomic layer etching of aluminum nitride using SF6 plasma and Al(CH3)3.
Anthony publishes paper on self-heating of cryogenic HEMT amplifiers and the limits of microwave noise performance.
Aug. 22, 2022
Haozhe publishes paper on Oxidation-resistant metallic films: Surface engineering at the angstrom scale.
Aug. 3, 2022
Benjamin submits paper on two-phonon scattering in non-polar semiconductors.
Jul. 22, 2022
David submits paper on high-field charge transport and noise in p-Si from first principles.
Jun. 29, 2022
Anthony successfully defends his thesis!
May 26, 2022
Alex is selected for the 2021 Centennial Prize for the Best Thesis in MCE!
May 24, 2022
Haozhe wins the Best Poster Award at Materials Research Society!
May 12, 2022
Welcome to our new visiting students Elsa and Juhi!
May 11, 2022
David, Haozhe, and Tomi presents talks at Materials Research Society
Mar 10, 2022
Peishi successfully defends his thesis!
Congratulations Dr. Cheng!
Apr 1, 2022
Minnich group presents 5 talks at APS March Meeting. March 14, 2022.
Azmain, Jiayin and Jiace join the group. Welcome to our newest members!
Jan 20, 2022
Answering fundamental questions in physics and cosmology requires continuous improvement of the noise performance of existing detector technologies as well as the development of fundamentally new types of detectors. Our group’s present research focuses on the solid-state physics and transport phenomena that govern the noise performance of various detectors, typically based on semiconductors and superconducting circuits at Caltech.
We are developing transistor microwave amplifiers used in radio astronomy and other fields that operate near the standard quantum limit of noise.
We are advancing ab-initio methods to compute high-field transport and fluctuation phenomena in solids without any adjustable parameters.
We are developing atomic layer etching (ALE) processes for various dielectrics and metals and applying them to devices such as superconducting microresonators. By careful engineering of the surface region with atomic precision, we will be able to push the performance of detectors towards their intrinsic upper limit.
We are exploring how near-term quantum computers may be used for quantum simulation of physically relevant systems.
Austin J. Minnich
Professor of Mechanical Engineering and Applied Physics
BS University of California Berkeley, 2006
MS Massachusetts Institute of Technology, 2008
PhD Massachusetts Institute of Technology, 2011
Professor, California Institute of Technology, 2017-Present
Assistant Professor, California Institute of Technology, 2011-2017
Click here for a copy of Austin's CV
Visiting undergraduate student
Current group members
BS, University of Science and Technology of China Research interests: Transport and fluctuations in semiconductors Joined group: 2022
BS, University of Rochester Research interests: Low noise amplifiers, noise in semiconductors Joined group: 2022
BS, UCLA Research interests: Atomic layer processing Joined group: 2021
HBS, Oregon State University Research interests: Low-noise amplifiers, atomic layer etching Joined group: 2021
BS, University of British Columbia Research interests: Quantum simulation, quantum error correction. Joined group: 2020
BS, University of Chicago Research interests: Quantum simulation, first-principles hot electron noise in semiconductors Joined group: 2019
BS, University of Texas at Arlington Research interests: Electronic fluctuations, low-noise amplifiers. Joined group: 2019
BS, Georgia Tech Research interests: First-principles hot electron noise in semiconductors. Joined group: 2019
BS, National University of Singapore Research interests: Quantum simulation, quantum algorithms. Joined group: 2018
BS, Georgia Tech Research interests: Electron transport in heterojunction bipolar transistors, low-noise amplifiers. Joined group: 2018
PhD, MIT Research interests: Atomic layer processing Joined group: 2021
Visiting student Columbia University Join group: 2022
Visiting student Indian Institute of Technology, Gandhinagar Join group: 2022
Visiting student, University of Salamanca Join group: 2022
Click here to see our group alumni.
APh 138b: Quantum Hardware and Techniques
This class covers multiple quantum technology platforms and related theoretical techniques, and will provide students with broad knowledge in quantum science and engineering. It will be split into three-week modules covering: applications of near-term quantum computers, superconducting qubits, trapped atoms and ions, topological quantum matter, solid state quantum bits, tensorproduct states.
1200 E. California Blvd, M.C. 104-44
Pasadena, CA 91125