Labels discover physics: the development of new labelling methods as a promising research field for applied physics

TL;DR

This paper explores the development of label and anti-fraud technologies based on physical effects, highlighting their potential as a promising research area in applied physics for enhancing security and authenticity verification.

Contribution

It introduces the concept of using physical effects in labels as a new research field for applied physics, emphasizing security and anti-fraud applications.

Findings

Physical effects are effectively used in anti-fraud labels.

Labels can incorporate holograms, magnetic resonance, and atomic transitions.

This approach offers promising security solutions for global markets.

Abstract

Labels and tags are accompanying us in almost each moment of our life and everywhere we are going, in the form of electronic keys or money, or simply as labels on products we are buying in shops and markets. The label diffusion, rapidly increasing for logistic reasons in the actual global market, carries huge amount of information but it is demanding security and anti-fraud systems. The first crucial point, for the consumer and producer safety, is to ensure the authenticity of the labelled products with systems against counterfeiting and piracy. Recent anti-fraud techniques are based on a sophisticated use of physical effects, from holograms till magnetic resonance or tunnel transitions between atomic sublevels. In this paper we will discuss labels and anti-fraud technologies as a new and very promising research field for applied physics.