Add to ORKGWe examine two proposals for marginally-self-correcting quantum memory: the cubic code by Haah and the welded code by Michnicki. In particular, we prove explicitly that they are absent of topological order above zero temperature, as their Gibbs ensembles can be prepared via a short-depth quantum circuit from classical ensembles. Our proof technique naturally gives rise to the notion of free energy associated with excitations. Further, we develop a framework for an ergodic decomposition of Davies generators in CSS codes which enables formal reduction to simpler classical memory problems. We then show that memory time in the welded code is doubly exponential in inverse temperature via the Peierls argument. These results introduce further conn...
We compute rigorously the ground and equilibrium states for Kitaev's model in 2D, both the finite an...
In recent years, topological phases of matter have presented exciting new avenues to achieve scalabl...
A self-correcting quantum memory can store and protect quantum information for a time that increases...
We examine two proposals for marginally-self-correcting quantum memory: the cubic code by Haah and t...
A big open question in the quantum information theory concerns the feasibility of a self-correcting ...
Recently, it has become apparent that the thermal stability of topologically ordered systems at fini...
We compute the topological entropy of the toric code models in arbitrary dimension at finite tempera...
We explore the feasibility of a quantum self-correcting memory based on 3D spin Hamiltonians with to...
Is the notion of a quantum computer (QC) resilient to thermal noise unphysical? We address this ques...
We propose a family of local CSS stabilizer codes as possible candidates for self-correcting quantum...
This thesis addresses whether it is possible to build a robust memory device for quantum information...
Thesis (Ph.D.)--University of Washington, 2015This thesis presents a model of self-correcting quantu...
To use quantum systems for technological applications we first need to preserve their coherence for ...
We propose a simple yet efficient mechanism for passive error correction in topological quantum memo...
We discuss the existence of stable topological quantum memory at finite temperature. At stake here i...
We compute rigorously the ground and equilibrium states for Kitaev's model in 2D, both the finite an...
In recent years, topological phases of matter have presented exciting new avenues to achieve scalabl...
A self-correcting quantum memory can store and protect quantum information for a time that increases...
We examine two proposals for marginally-self-correcting quantum memory: the cubic code by Haah and t...
A big open question in the quantum information theory concerns the feasibility of a self-correcting ...
Recently, it has become apparent that the thermal stability of topologically ordered systems at fini...
We compute the topological entropy of the toric code models in arbitrary dimension at finite tempera...
We explore the feasibility of a quantum self-correcting memory based on 3D spin Hamiltonians with to...
Is the notion of a quantum computer (QC) resilient to thermal noise unphysical? We address this ques...
We propose a family of local CSS stabilizer codes as possible candidates for self-correcting quantum...
This thesis addresses whether it is possible to build a robust memory device for quantum information...
Thesis (Ph.D.)--University of Washington, 2015This thesis presents a model of self-correcting quantu...
To use quantum systems for technological applications we first need to preserve their coherence for ...
We propose a simple yet efficient mechanism for passive error correction in topological quantum memo...
We discuss the existence of stable topological quantum memory at finite temperature. At stake here i...
We compute rigorously the ground and equilibrium states for Kitaev's model in 2D, both the finite an...
In recent years, topological phases of matter have presented exciting new avenues to achieve scalabl...
A self-correcting quantum memory can store and protect quantum information for a time that increases...