OSU's team is developing components for the inner tracker of the ATLAS detector, specifically layers zero and one, which are closest to the collision point.
The components designed by OSU must meet extremely precise standards, with measurements accurate to just a few micrometers.
The ATLAS collaboration involves approximately 5,000 people from around 40 countries, highlighting the global effort in advancing particle physics.
OSU's lab has developed such a strong reputation that national laboratories now send their equipment to OSU for testing.
Why this matters: OSU's work is crucial for the continued operation and advancement of the ATLAS detector. Their contributions enable scientists to explore fundamental questions about the universe, potentially leading to the discovery of new particles and improving our understanding of dark matter and the Higgs boson.
The OSU laboratory, established two decades ago by Dr. Flera Rizatdinova, has grown into a multidisciplinary research group involving professors, engineers, and students from various fields such as physics, computer science, electrical engineering, and materials science. This diverse team is focused on designing flexible cables that link a detector’s sensors to its data system. These components must function flawlessly for at least a decade once installed, as repairs would require a year-long disassembly of the ATLAS detector.
The interdisciplinary approach allows students to gain hands-on experience with advanced technology, preparing them for careers in research and engineering. The ongoing work at OSU is scheduled to continue until 2027, with installation planned for CERN in 2028. The upgraded detector will help scientists convert energy from high-speed particles into new forms of matter that have never been seen before, pushing the boundaries of our understanding of the universe.
Q: What is the ATLAS detector?
The ATLAS detector is one of the largest detectors at CERN's Large Hadron Collider, used to capture data from high-energy particle collisions.
Q: What is OSU's role in the ATLAS upgrade?
OSU is developing critical components for the inner tracker of the ATLAS detector, ensuring it can withstand high radiation levels and transmit data effectively.
Q: Why is this research important?
This research helps scientists explore fundamental questions about the universe, potentially leading to the discovery of new particles and improving our understanding of dark matter and the Higgs boson.
OSU's work on the ATLAS detector is essential for advancing high-energy physics.
The precision and complexity of the project require a multidisciplinary approach, involving experts from various fields.
The upgraded ATLAS detector will help scientists explore the universe's fundamental particles and forces.
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