PHI Lab Team
Adil Gangat
Scientist
Adil Gangat’s research focuses on the lines of quantum optics theory and condensed matter theory. Currently he works on applying computational tensor network methods to understand the phase transitions in a particular spin lattice model, and on providing computational simulations to guide experiments in circuit QED.
Awards
xxxFellow (2021)
xxxxInvestigator (2019)
xxxMurray Hopper Award (2015)
Presixxxdential Early Career Award for Scientists and Engineers (PECASE) (2011)
xxxFellowship (2011)
xxxxFaculty Fellowship (2011)
xxxxFellowship (2010)
Publications
- Weak first-order phase transitions in the frustrated classical square lattice J1-J2 Ising model
By Adil Gungat
arXiv preprint arXiv 2023
- Measurement Driven Quantum Clock Implemented with a Superconducting Qubit
By Xin He, Prasanna Pakkiam, Adil Gungat, Gerard Milburn & Arkady Fedorov
arXiv preprint arXiv 2022
- Quantum Clocks Driven by Measurement
By Adil Gungat & GJ Milburn
arXiv preprint arXiv 2021
- Phase Boundary Location with Information-theoretic Entropy in Tensor Renormalization Group Flows
By Adil Gangat & Ying-Jer Kao
Physical Review B 2019
- Symmetry Between Repulsive and Attractive Interactions in Driven-dissipative Bose-Hubbard Systems
By Adil Gangat, Ian P. McCulloch & Ying-Jer Kao
Scientific Reports 2018
- Steady States of Infinite-size Dissipative Quantum Chains via Imaginary Time Evolution
By Adil Gangat, I Te & Ying-Jer Kao
Physical Review Letters 2017
- Nested Defects on the Boundary of Topological Superconductors
By James de Lisle, Giandomenico Palumbo, Adil Gangat & Jiannis K. Pachos
Physical Review B 2016
- Observing Controlled State Collapse in a Single Mechanical Oscillator via a Direct Probe of Energy Variance
By Adil Gangat
Physical Review A 2016
- Deterministic Many-Resonator Entanglement of Nearly Arbitrary Microwave States via Attractive Bose-Hubbard Simulation
By Adil Gangat, IP McCulloch & GJ Milburn
Physical Review X 2013
- Observing Controlled Quantum State Collapse in a Single Quantum Trajectory of a Mechanical Oscillator
By Adil Gangat
arXiv preprint arXiv 2013
- Engineered Single-and Many-Body Macroscopic Quantum States
By Adil Gangat
The University of Queensland 2013
- Non-locally Entangled Microwave and Micromechanical Squeezed Cats: A Phase Transition-based Protocol
By Adil Gangat, IP McCulloch & GJ Milburn
arXiv preprint arXiv 2012
- Quantum Optical Control and Measurement in Optomechanics
By GJ Milburn & Adil Gangat
International Conference on Quantum Information 2011
- Quantum Optomechanical Measurement of the Phonon Number Dynamics of a Mesoscopic Mechanical Resonator
By Adil Gangat, Tom M. Stace & Gerard J Milburn
Quantum Electronics and Laser Science Conference 2011
- Phonon Number Quantum Jumps in an Optomechanical System
By Adil Gangat, Tom M. Stace & Gerard J Milburn
New Journal of Physics 2011
- Two-dimensional Nanolithography Using Atom Interferometry
By Adil Gangat, P. Pradhan, G. Pati & MS Shahriar
Physical Review A 2005
- Continuously Guided Atomic Interferometry Using a Single-zone Optical Excitation: Theoretical Analysis
By MS Shahriar, M. Jheeta, Y. Tan, P. Pradhan & Adil Gangat
Optics Communications 2004