Michael Hatridge

Michael Hatridge is an Associate Professor of Applied Physics at Yale University. He received his B.S. from Texas A&M University and Ph. D. from U.C. Berkeley under the supervision of John Clarke. He did his postdoctoral at Yale in the group of Michel Devoret, with a focus on quantum effects in the readout of superconducting qubits, as well as the challenge of realizing high fidelity readout for quantum information processing.  His laboratory (the Hatlab) focuses on the use of parametric drives to generate quantum controls, including single- and multi-qubit gates and engineered baths, as well as exploring how to use parametric couplers and controls to realize modular quantum computers.  The Halab's also uses parametric drives build quantum-limited parametric amplifiers for both studies of quantum measurement and practical, high fidelity projective qubit readout.  He is the past director of the Pittsburgh Quantum Institute and is presently a Deputy Director of the Yale Quantum Institute.

• Michelson Postdoctoral Fellowship
• NSF Career Award
• Sloan Research Fellowship
• University of Pittsburgh’s Chancellor’s Distinguished Research Award

• Realizing all-to-all couplings among detachable quantum modules using a microwave quantum state router C. Zhou, P. Lu, M. Praquin, T.-C. Chien, R. Kaufman, X. Cao, M. Xia, R. Mong, W. Pfaff, D. Pekker, M. Hatridge. npj Quantum Information 9, 54 (2023)
• Co-Designed Architectures for Modular Superconducting Computers E. McKinney, M. Xia, C. Zhou, P. Lu, M. Hatridge, A. Jones. IEEE Symposium on High Performance Computer Architecture (HPCA) 759 (2023)​​​​​
• Simple, High Saturation Power, Quantum-limited, RF SQUID Array-based Josephson Parametric Amplifiers R. Kaufman, C. Liu, K. Cicak, B. Mesits, M. Xia, C. Zhou, M. Nowicki, J.Aumentado, D. Pekker, M. Hatridge. Phys. Rev. Appl. 24, 014052 (2025)​​​​​​​
• Practical trainable temporal post-processor for multi-state quantum measurement S. A. Khan, R. Kaufman, B. Mesits, M. Hatridge, H. E. Tureci. PRX Quantum 5, 020364 (2024).​​​​​​
• Proposal for a continuous wave laser with linewidth well below the standard quantum limit C. Liu, M. Mucci, X. Cao, M. Gurudev, M. Hatridge, D. Pekker.   Nature Comm.  12, 5620 (2021)​​​​​​​
• Noise Reduction in Qubit Readout with a Two-Mode Squeezed Interferometer G. Liu, X. Cao, T.-C. Chien, C. Zhou, P. Lu, M. Hatridge. Phys. Rev. Appl. 18, 064092 (2022)