Research and development for the first batch of key equipment for the world’s most powerful electron collider, the Circular Electron Positron Collider (CEPC), in China, has made solid progress. Wang Yifang, director of the Institute of High Energy Physics (IHEP), under the Chinese Academy of Sciences in Beijing, who is also a deputy to the National People’s Congress, made the comments. The overall development of the CEPC project is moving forward smoothly, with some of the first batch of equipment reaching design standards.
Klystron is among the first batch of key equipment for the super-sized collider, which scored a 60 percent efficiency in the prototype test earlier this year, reaching world advanced levels, up from below 50 percent, according to Wang. Wang’s team aims to produce an even better version of the klystron with 80 percent efficiency this year. The location for the CEPC has yet to be determined, Wang noted.
The CEPC project will reportedly cost 35 billion yuan ($5.05 billion) and will have a circumference of 100 kilometers, with center-mass energy of up to 240 giga electron-volts, both setting a world record. Chinese scientists are eyeing the completion for CEPC construction by 2030.
The conceptual design for the CEPC passed international inspections in September 2019. Scientists from the US, Europe and Japan have participated in designing the project, and will work on the building process and conduct research with the collider.
The Large Hadron Collider, the Swiss project near Geneva, is currently the world’s largest and most powerful particle collider and reportedly the largest machine in the world. In a bid to maximize the project’s service life, scientists are mulling upgrading the electron positron collider in around 2040 into a proton collider, Wang noted. By then, the center-mass energy for the CEPC will have reached about 100 tera electron-volts, seven times as powerful as the Switzerland’s project, Wang said.
The outbreak of COVID-19 pandemic has brought risks of suspension and delay in implementing procurement contracts for some equipment for large-scale projects due to adjustments in budgeting plans. Wang suggested that legal entities engaged in major project construction should be allowed to raise funds through multiple channels or borrow other funds to ensure that construction tasks are completed on schedule.
Wang revealed that another IHEP project, the cosmic ray observation station on an area equivalent to 200 soccer fields in the wilderness of Daocheng, Southwest China’s Sichuan Province, 4,400 meters above sea level, has been affected by budget cuts.