TL;DR
This paper explores the intersection of quantum computing and high energy physics by examining how top quarks produced at the LHC exhibit quantum 'magic', offering new insights into quantum advantage.
Contribution
It introduces the novel idea that top quarks from the LHC can serve as a natural source of quantum 'magic', bridging high energy physics and quantum computing research.
Findings
LHC produces top quarks with properties relevant to quantum 'magic'
Top quarks can be used to study quantum computational advantages
Provides a new experimental platform for quantum information studies
Abstract
In recent years, there has been increasing collaboration between the fields of quantum computing and high energy physics, including using LHC processes such as top (anti-)quark pair production to perform high energy tests of quantum entanglement. In this proceeding, I will review another interesting property from quantum computing ("magic"), that is needed to make quantum computers with genuine computational advantage over their classical counterparts. How to make and enhance magic in general quantum systems is an open question, such that new insights are always useful. To this end, I will show that the LHC naturally produces magic top quarks, providing a novel playground for further study in this area.
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