Decoupling has become a central concept in quantum information theory, with applications including proving coding theorems, randomness extraction and the study of conditions for reaching thermal equilibrium. However, our understanding of the dynamics that lead to decoupling is limited. In fact, the only families of transformations that are known to lead to decoupling are (approximate) unitary two-designs, i.e., measures over the unitary group that behave like the Haar measure as far as the first two moments are concerned. Such families include for example random quantum circuits with O(n 2) gates, where n is the number of qubits in the system under consideration. In fact, all known constructions of decoupling circuits use Ω(n 2) gates. Here...
We address the question of efficient implementation of quantum protocols, with small communication a...
Abstract Scrambling is a process by which the state of a quantum system is effectively randomized du...
We study the scrambling of quantum information in local random unitary circuits by focusing on the t...
Decoupling has become a central concept in quantum information theory with applications including pr...
Decoupling has become a central concept in quantum information theory, with applications including p...
Consider a bipartite system, of which one subsystem, A, undergoes a physical evolution separated fro...
Consider a bipartite system, of which one subsystem, A, undergoes a physical evolution separated fro...
Random transformations are typically good at “scrambling ” information. Specifically, in the quantum...
We prove that local random quantum circuits acting on n qubits composed of O(t[superscript 10]n[supe...
We investigate decoupling, one of the most important primitives in quantum Shannon theory, by replac...
Randomness is both a useful way to model natural systems and a useful tool for engineered systems, e...
The dynamics of quantum states underlies the emergence of thermodynamics and even recent theories of...
This thesis presents different results about two topics in the field of quantum information. The fir...
The applications of random quantum circuits range from quantum computing and quantum many-body syste...
We present a general control-theoretic framework for constructing and analyzing random decoupling sc...
We address the question of efficient implementation of quantum protocols, with small communication a...
Abstract Scrambling is a process by which the state of a quantum system is effectively randomized du...
We study the scrambling of quantum information in local random unitary circuits by focusing on the t...
Decoupling has become a central concept in quantum information theory with applications including pr...
Decoupling has become a central concept in quantum information theory, with applications including p...
Consider a bipartite system, of which one subsystem, A, undergoes a physical evolution separated fro...
Consider a bipartite system, of which one subsystem, A, undergoes a physical evolution separated fro...
Random transformations are typically good at “scrambling ” information. Specifically, in the quantum...
We prove that local random quantum circuits acting on n qubits composed of O(t[superscript 10]n[supe...
We investigate decoupling, one of the most important primitives in quantum Shannon theory, by replac...
Randomness is both a useful way to model natural systems and a useful tool for engineered systems, e...
The dynamics of quantum states underlies the emergence of thermodynamics and even recent theories of...
This thesis presents different results about two topics in the field of quantum information. The fir...
The applications of random quantum circuits range from quantum computing and quantum many-body syste...
We present a general control-theoretic framework for constructing and analyzing random decoupling sc...
We address the question of efficient implementation of quantum protocols, with small communication a...
Abstract Scrambling is a process by which the state of a quantum system is effectively randomized du...
We study the scrambling of quantum information in local random unitary circuits by focusing on the t...