Converting a real quantum bath to an effective classical noise
Physical Review B
Abstract not provided.
Publications
Copy of A no-go Ptheorem for fault-tolerant AQC
Abstract not provided.
Proposal to the American Institute of Mathematics for Workshop on Coherent Quantum Feedback Control
Abstract not provided.
Optimal control theory approach to adiabatic quantum computation
New Journal of Physics
Abstract not provided.
Simulation of Stochastic Quantum Systems Using Polynomial Chaos Expansions
Abstract not provided.
Mitigating faults from Hamiltonian imprecision in analog quantum information processing
Physical Review
Abstract not provided.
A family of [[6k2k2]] codes for practical scalable adiabatic quantum computation
Physical Review Letters
Abstract not provided.
Converting a real quantum bath to an effective classical noise
Physical Review Letters
Abstract not provided.
Spin-bath noise correlation functions from quantum microscopic models
Physical Review Letters
Abstract not provided.
Error suppression and correction in adiabatic quantum computing: non-equilibrium dynamics
Physical Review A
Abstract not provided.
Error suppression and error correction in adiabatic quantum computation: Techniques and challenges
Physical Review X
Abstract not provided.
Architecture Overview II
Abstract not provided.
Spin-bath autocorrelation functions directly from quantum theory
Abstract not provided.
Simulation of stochastic quantum systems using polynomial chaos expansions
Abstract not provided.
Bath-specific dynamical decoupling in enriched Si
Abstract not provided.
Active Error Correction in Adiabatic Quantum Computation
Abstract not provided.
Simulation of stochastic quantum systems with polynomial chaos expansions
Proposed for publication in Physical Review Letters.
Abstract not provided.
Equivalence and limitations of error suppression techniques for adiabatic quantum computing
Proposed for publication in Physical Review Letters.
Abstract not provided.
Error detection suppression and correction in adiabatic quantum computing
Abstract not provided.
Protecting quantum gates from control noise
Abstract not provided.
Demonstrating Robustness of Analogue Quantum Simulators (AQS)
In this report we describe the construction and characterization of a small quantum processor based on trapped ions. This processor could ultimately be used to perform analogue quantum simulations with an engineered computationally-cold bath for increasing the system's robustness to noise. We outline the requirements to build such a simulator, including individual addressing, distinguishable detection, and low crosstalk between operations, and our methods to implement and characterize these requirements. Specifically for measuring crosstalk, we introduce a new method, simultaneous gate set tomography to characterize crosstalk errors.
Results 51–71 of 71