Research doesn't stop during the summer at Rochester.
Max Neiderbach ‘24 is a physics major who has conducted research at the University for the past 3 years. Max is currently working on understanding quantum computation in his project titled, “Quantum Simulation of a Lattice Gauge Theory.” Under guidance from Professor Alice Quillen and Professor Machiel Blok, he has found a passion for application of the quantum theory.
Max's featured research centers on using microwave pulses to model fundamental particles, which is an important application for quantum computers. When precise pulses are employed, these computers surpass traditional devices in solving complex mathematical problems. Max's technique involves solving systems of equations and employing Python coding.
“Professors love their research. Don’t be afraid to talk with them in-person and make that personal connection. “ ⭐️
#URochesterSummer #URochesterResearch
Max Neiderbach ‘24 is a physics major who has conducted research at the University for the past 3 years. Max is currently working on understanding quantum computation in his project titled, “Quantum Simulation of a Lattice Gauge Theory.” Under guidance from Professor Alice Quillen and Professor Machiel Blok, he has found a passion for application of the quantum theory.
Max's featured research centers on using microwave pulses to model fundamental particles, which is an important application for quantum computers. When precise pulses are employed, these computers surpass traditional devices in solving complex mathematical problems. Max's technique involves solving systems of equations and employing Python coding.
“Professors love their research. Don’t be afraid to talk with them in-person and make that personal connection. “ ⭐️
#URochesterSummer #URochesterResearch
- Category
- Academic
- Tags
- University of Rochester, Rochester, higher education
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