Add to ORKGWhen an experimentalist measures a time series of qubits, the outcomes constitute a classical stochastic process. We show that projective measurement induces high complexity in these processes in two specific senses: They are inherently random (finite Shannon entropy rate) and they require infinite memory for optimal prediction (divergent statistical complexity). We identify nonorthogonality of the quantum states as the mechanism underlying the resulting complexities and examine the influence that measurement choice has on the randomness and structure of measured qubit processes. We introduce quantitative measures of this complexity and provide efficient algorithms for their estimation
The world around us is awash with structure and pattern. We observe it in thecycles of the seasons, ...
Quantum measurements are crucial for observing the properties of a quantum system, which, however, u...
International audienceMeasuring a quantum system can randomly perturb its state. The strength and na...
Increasingly sophisticated programmable quantum simulators and quantum computers are opening unprece...
We consider the problem of measuring a single qubit, known to have been prepared in either a randoml...
A one-dimensional quantum oscillator is monitored by taking repeated position measurements. As a fir...
In general, any observed random process includes two qualitatively different forms of randomness: ap...
I employ random-matrix methods to set up and solve statistical models of noisy nonunitary dynamics t...
We study a dissipative quantum mechanical model of the projective measurement of a qubit. We demonst...
In the first part of this two-part article (Aerts & Sassoli de Bianchi, 2014), we have intro-duc...
Decoherence remains a major challenge in Near term, Intermediate scale Noisy Quantum (NISQ) computer...
The thesis of this paper is that quantum measurement can be analyzed and understood within quantum m...
We construct measures for the non-Markovianity of quantum evolution with a physically meaningful int...
Randomness is a defining element of mixing processes in nature and an essential ingredient to many p...
A continuous projective measurement of a quantum system often leads to a suppression of the dynamics...
The world around us is awash with structure and pattern. We observe it in thecycles of the seasons, ...
Quantum measurements are crucial for observing the properties of a quantum system, which, however, u...
International audienceMeasuring a quantum system can randomly perturb its state. The strength and na...
Increasingly sophisticated programmable quantum simulators and quantum computers are opening unprece...
We consider the problem of measuring a single qubit, known to have been prepared in either a randoml...
A one-dimensional quantum oscillator is monitored by taking repeated position measurements. As a fir...
In general, any observed random process includes two qualitatively different forms of randomness: ap...
I employ random-matrix methods to set up and solve statistical models of noisy nonunitary dynamics t...
We study a dissipative quantum mechanical model of the projective measurement of a qubit. We demonst...
In the first part of this two-part article (Aerts & Sassoli de Bianchi, 2014), we have intro-duc...
Decoherence remains a major challenge in Near term, Intermediate scale Noisy Quantum (NISQ) computer...
The thesis of this paper is that quantum measurement can be analyzed and understood within quantum m...
We construct measures for the non-Markovianity of quantum evolution with a physically meaningful int...
Randomness is a defining element of mixing processes in nature and an essential ingredient to many p...
A continuous projective measurement of a quantum system often leads to a suppression of the dynamics...
The world around us is awash with structure and pattern. We observe it in thecycles of the seasons, ...
Quantum measurements are crucial for observing the properties of a quantum system, which, however, u...
International audienceMeasuring a quantum system can randomly perturb its state. The strength and na...