Javascript must be enabled to continue!

QUANTUM MEASUREMENTS AND ALGORITHMIC RANDOMNESS

Abstract Nies and Scholz formalized the notion of an infinite qubitstring and referred to it as a ‘state’. They defined ‘quantum Martin-Löf randomness’ for states. We give a notion of measurement of a state in a computable basis and introduce ‘quantum measurement randomness’, a randomness notion for states. A state is quantum measurement random if measuring it in any computable basis yields a Martin-Löf random bitstring with probability one. Our main result is that quantum Martin-Löf randomness strictly implies quantum measurement randomness. This uses the construction of a quantum measurement random state which is not quantum Martin-Löf random. We prove two general results on which this construction relies: The first concerns Martin-Löf randomness relative to computable measures and extends a result of V. Vovk. The second is a combinatorial result about Kronecker products.

Cambridge University Press (CUP)

TEJAS BHOJRAJ

The Journal of Symbolic Logic

2026

Title: QUANTUM MEASUREMENTS AND ALGORITHMIC RANDOMNESS

Description:

Abstract Nies and Scholz formalized the notion of an infinite qubitstring and referred to it as a ‘state’.

They defined ‘quantum Martin-Löf randomness’ for states.

We give a notion of measurement of a state in a computable basis and introduce ‘quantum measurement randomness’, a randomness notion for states.

A state is quantum measurement random if measuring it in any computable basis yields a Martin-Löf random bitstring with probability one.

Our main result is that quantum Martin-Löf randomness strictly implies quantum measurement randomness.

This uses the construction of a quantum measurement random state which is not quantum Martin-Löf random.

We prove two general results on which this construction relies: The first concerns Martin-Löf randomness relative to computable measures and extends a result of V.

Vovk.

The second is a combinatorial result about Kronecker products.

Back

The rapid expansion of the fintech sector has brought with it an increasing demand for robust and sophisticated fraud detection systems capable of managing large volumes of financi...

Quantum Computing and Quantum Information Science

Abstract: Quantum Computing and Quantum Information Science offers a comprehensive, interdisciplinary exploration of the mathematical principles, computational models, and engineer...

Randomness and invariance

Abstract Richard von Mises was the first to provide a rigorous definition of randomness for infinite binary sequences, taken to represent indefinitely long sequen...

Advancements in Quantum Computing and Information Science

Abstract: The chapter "Advancements in Quantum Computing and Information Science" explores the fundamental principles, historical development, and modern applications of quantum co...

Integrating quantum neural networks with machine learning algorithms for optimizing healthcare diagnostics and treatment outcomes

The rapid advancements in artificial intelligence (AI) and quantum computing have catalyzed an unprecedented shift in the methodologies utilized for healthcare diagnostics and trea...

Quantum information outside quantum information

Quantum theory, as counter-intuitive as a theory can get, has turned out to make predictions of the physical world that match observations so precisely that it has been described a...

Impact of imperfections on correlation-based quantum information protocols

Quantum information science is a rapidly evolving field both from the theoretical and the experimental viewpoint, motivated by the fact that protocols exploiting quantum resources ...

Quantum-Enhanced Artificial Intelligence: Framework for Hybrid Computing and Natural Language Processing

The convergence of quantum computing and artificial intelligence represents a paradigm shift in computational capability, enabling solutions to previously intractable optimization ...

Email:
Password:

Email:

QUANTUM MEASUREMENTS AND ALGORITHMIC RANDOMNESS

Related Results