Preliminary Investigation of a Higgs Factory based on Proton-Driven Plasma Wakefield Acceleration

TL;DR

This paper explores the potential of proton-driven plasma wakefield acceleration as a promising approach for a future Higgs Factory, emphasizing its advantages and the need for further technological development.

Contribution

It introduces the concept of proton-driven plasma wakefield acceleration for Higgs Factory applications, highlighting its potential benefits over existing methods.

Findings

Proton-driven plasma wakefield acceleration offers high-energy advantages.

Success depends on developing compact high-energy proton bunches.

Potential for broad particle-physics research applications.

Abstract

A Higgs Factory is considered the highest priority next collider project by the high-energy physics community. Very advanced designs based on radio-frequency cavities exist, and variations on this approach are still being developed. Recently, an option based on electron-bunch driven plasma wakefield acceleration has also been proposed. In this article, we discuss a further option based on proton-driven plasma wakefield acceleration. This option has significant potential advantages due to the high energy of the plasma wakefield driver, simplifying the plasma acceleration stage. Its success will depend on further developments in producing compact high-energy proton bunches at a high rate, which would also make possible a broad range of synergistic particle-physics research.