Light drives innovation – the wavelength, the power, the intrinsic qualities. From the mask shop to the packaging fab, from lithography to metrology, each technology node has relied on light invention to enable scaling, process control, reliability, and even ensuring supply chain security. However, the increasing cost and complexity of new light sources to meet industry demands has become prohibitive, leading to stagnation in technology development and reliance on the status quo in terms of the light available and the applications it permits. Now, a leap is required to develop the new generation of light source that will serve the semiconductor industry indefinitely, providing low-cost EUV as well as any wavelength required for manufacturing or R&D applications. xLight is building an accelerator-based light source to drive the semiconductor industry into the next decade and beyond, providing high power, quality light to any application and delivering light as a utility.

This report describes the development overview of future science accelerators in Asia, focusing on projects that have emerged, conceptual designs that exist, and plans that may be constructed, commissioned, and operated within next 5 to 10 years. The scope covers accelerators in three major scientific directions: experimental high-energy physics (colliders), applied science (synchrotron radiation light sources), and nuclear physics (heavy-ion accelerators). Each project's scientific objectives, applied technologies, and current status will be introduced.

Particle accelerator projects in Europe are continuously growing and are used in a wide range of domains, ranging from basic science via applied science to applications such as medicine and industry. Traditionally the strongest demands in terms of technologies and performance are coming from particle physics, from which new technologies extend to other applications and finally reach the society. In this presentation, a short overview of the particle accelerator projects and upgrades in Europe is show. Examples of projects in the various domains are given with emphasis on the industrial needs. Finally lectures learnt in the area of collaboration with industry are shown.

Several accelerator facilities serving critical need of the US scientific mission are planned for the next decades. The Electron Ion Collider (EIC) is one of them and it will be the only new collider to be built in the near future. The EIC is a unique, high-energy, high-luminosity, polarized beam collider that will be one of the most challenging and exciting accelerator complexes ever built. Currently, the EIC has received a strong support in the scientific community, it is increasing international engagement, and it is creating several opportunities for Industrial Partners.