“Three times the size of the LHC”: CERN unveils this colossal collider set to redefine the limits of particle physics exploration

The scientific community is on the brink of a groundbreaking leap forward with the proposal of the Future Circular Collider (FCC), designed to succeed CERN’s Large Hadron Collider (LHC) by the 2040s. Set to be an impressive 56.5 miles in circumference, the FCC promises to extend the boundaries of particle physics research beyond what the LHC has achieved. As CERN has always been a pioneer in fundamental scientific research, this new endeavor is expected to continue its legacy of transformative discoveries. The FCC’s potential to revolutionize our understanding of the universe hinges on its ability to explore areas of physics that remain elusive even today.

Accomplishments of the LHC

The Large Hadron Collider has been an incredible achievement in the realm of physics since its inception. Constructed over a decade from 1998 to 2008, this circular particle collider stretches 16.7 miles under the Swiss-French border near Geneva. A collaborative effort involving over 100 countries, the LHC has been instrumental in exploring both established and emerging theories in particle physics. Its most celebrated discovery was the Higgs Boson particle, identified in 2012 during experiments conducted between 2010 and 2012. This discovery was a monumental step in understanding how particles obtain mass, a fundamental aspect of our universe.

The LHC primarily functions as a proton-proton collider, accelerating two beams of high-energy protons in opposite directions to collide at designated points. These collisions have enabled researchers to delve deeper into the structure of matter and energy. Since its initial run, the LHC has undergone numerous upgrades, achieving collision energies exceeding 13 TeV. Despite its groundbreaking successes, the LHC’s operational timeline is expected to conclude by the 2040s, paving the way for its successor, the Future Circular Collider. The need for a next-generation collider like the FCC is more pressing than ever to continue advancing our understanding of the universe.

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The FCC: An Overview

The Future Circular Collider is poised to be an engineering marvel, with a circumference of 56.5 miles, making it over three times larger than the LHC. This ambitious project is planned to be located 200 meters underground within the Swiss-French region. CERN has outlined a two-stage development plan for the FCC, starting with the FCC-ee, an electron-positron collider. This initial phase will focus on precision measurements, potentially revealing subtle discrepancies in the Standard Model over a 15-year period.

Following the FCC-ee, the second phase will introduce the FCC-hh, a proton-proton collider utilizing the same tunnel but different technology. This phase aims to achieve collision energies of up to 100 TeV, significantly higher than the LHC’s capabilities. This increase in energy opens the door to discovering heavier particles and exploring components of dark matter, which remain a mystery to scientists. The FCC-hh is expected to run for approximately 25 years, offering unprecedented opportunities to study physics at scales previously unattainable. Construction is anticipated to begin in the 2030s, contingent upon approval from CERN Member States and international partners.

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Driving Innovation

The feasibility study for the Future Circular Collider indicates that the project is both technically and financially viable. The initial FCC-ee phase is projected to cost around 15 billion Swiss francs, or $17 billion, spread over 12 years beginning in the early 2030s. Beyond its scientific contributions, the FCC is expected to generate significant economic benefits by creating over 800,000 person-years of employment. This means the project will produce work equivalent to 800,000 individuals working for a year.

The FCC’s impact will extend beyond fundamental physics research, fostering advancements in other fields such as medicine and energy. Particle colliders have historically driven technological progress, and the FCC is poised to continue this trend. As a new frontier in research, the FCC promises to be a cornerstone in exploring the mysteries of the universe throughout the 21st century. Its potential discoveries and technological innovations could reshape our understanding of the world and the cosmos.

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Potential Challenges and Considerations

While the Future Circular Collider represents a monumental step forward for particle physics, it is not without its challenges. The sheer scale and complexity of the project require meticulous planning and coordination among numerous international stakeholders. Funding is another critical aspect that necessitates commitment from CERN Member States and international partners. The project’s success hinges on securing the necessary financial support and maintaining collaborative efforts across borders.

Moreover, the construction and operation of such a large-scale facility pose environmental and logistical challenges. Ensuring minimal ecological impact while building and operating the FCC is paramount, requiring innovative solutions and sustainable practices. The project also demands the continuous development of cutting-edge technology to support its ambitious scientific goals. Addressing these challenges will be crucial to realizing the full potential of the FCC and ensuring that it serves as a beacon of scientific progress for generations to come.

As the Future Circular Collider moves closer to reality, it stands as a testament to human ingenuity and the collective pursuit of knowledge. The FCC promises to unlock new realms of understanding, pushing the boundaries of what we know about the universe. However, with its ambitious goals come significant challenges that require global collaboration and commitment. What new discoveries will the FCC unveil, and how will they shape our understanding of the universe?

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