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Main Authors: Bernard-Bernardet, Samuel, Apffel, Benjamin
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2411.15059
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author Bernard-Bernardet, Samuel
Apffel, Benjamin
author_facet Bernard-Bernardet, Samuel
Apffel, Benjamin
contents The spinorial ball is an electronic manipulable device that we recently introduced to discuss the origin of spin-1/2 from rotations group representation, without relying on the quantum mechanics framework. Nevertheless, it is also a macroscopic visualization of a quantum two-level system, and can thus be used to gain intuition on some generic features of qubits. The present article therefore aims to complement and extend our previous work by discussing how the spinorial ball can be used to visualize quantum mechanics features. The Bloch sphere, the Hopf fibration and the Berry phase can for instance easily be seen and manipulated using this original device. We also discuss how the spinorial ball can be used to visualize Hamiltonian evolution, and we describe an explicit mapping between the ball's motion and the evolution of 1/2-spin in arbitrary magnetic field. An electronic implementation of projective measurement that matches the predictions of quantum mechanics is also proposed. The present article is written as a practical guide to manipulate the ball and establishes the exact correspondence between the spinorial ball and a generic two-level system.
format Preprint
id arxiv_https___arxiv_org_abs_2411_15059
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle The spinorial ball (II): a manipulable qubit at human scale
Bernard-Bernardet, Samuel
Apffel, Benjamin
Quantum Physics
Physics Education
The spinorial ball is an electronic manipulable device that we recently introduced to discuss the origin of spin-1/2 from rotations group representation, without relying on the quantum mechanics framework. Nevertheless, it is also a macroscopic visualization of a quantum two-level system, and can thus be used to gain intuition on some generic features of qubits. The present article therefore aims to complement and extend our previous work by discussing how the spinorial ball can be used to visualize quantum mechanics features. The Bloch sphere, the Hopf fibration and the Berry phase can for instance easily be seen and manipulated using this original device. We also discuss how the spinorial ball can be used to visualize Hamiltonian evolution, and we describe an explicit mapping between the ball's motion and the evolution of 1/2-spin in arbitrary magnetic field. An electronic implementation of projective measurement that matches the predictions of quantum mechanics is also proposed. The present article is written as a practical guide to manipulate the ball and establishes the exact correspondence between the spinorial ball and a generic two-level system.
title The spinorial ball (II): a manipulable qubit at human scale
topic Quantum Physics
Physics Education
url https://arxiv.org/abs/2411.15059