Princeton offers new Ph.D. The program in int

Princeton University launched a New Ph.D. program in Quantum Science and Engineering (QSE), providing graduate training in an emerging discipline at the intersection of quantum physics and information theory. This new field of quantum information science has broad implications and may enable fundamentally new technology, including new types of computers that can solve currently intractable problems, communication channels guaranteed by the laws of physics, and sensors that provide unprecedented sensitivity and spatial resolution.

Applications from prospective students are due December 15 for admission to the upcoming senior class in fall 2024.

The new doctoral program is part of Princeton expanded commitment For research and education in quantum science and engineering. The university’s growing programs, coupled with the ongoing recruitment of senior faculty, graduate students and postdoctoral researchers, reflect the university’s recognition of the transformative potential of quantum science and technology to benefit society in the coming decades.

According to Andrew Houck, professor of electrical and computer engineering and co-director of Princeton sWhy? IinitiativePrinceton is “intensifying efforts across campus to remain the world’s leading place for this type of science and engineering for many decades.” Ali Yazdani, a Class of 1909 professor of physics and co-director alongside Hooke, adds that Princeton’s work in this area differs from quantum research at other institutions because of the university’s comprehensive approach across disciplines and across the spectrum from basic science to innovative devices.

“The main goal of the program is to form a graduate student community that includes disciplines and research topics, united by a common scientific language,” says Natalie de Leon, associate professor of electrical and computer engineering and director of graduate studies at QE. . “Our curriculum will put students in an excellent position to build new quantum systems, discover new technological innovations, become leaders in the emerging quantum industry, and make profound and lasting contributions to quantum information science.”

De Leon says the new doctoral program at QSE is designed to capitalize on the unique interdisciplinary scope of Princeton’s quantitative community. “Research at Princeton spans every layer of quantum technology, bringing together multi-object physics, materials, devices, new quantum hardware platforms, quantum information theory, metrology, algorithms, complexity theory, and computer architecture,” de Leon explains. “This vibrant environment allows for rapid progress on the frontiers of quantum science and technology, with cross-pollination between quantum platforms and approaches.”

The initiative also benefits from a growing number of collaborations with scientists at the Princeton Plasma Physics Laboratory, a DOE national laboratory operated by Princeton University; The collaborative work includes designing highly specialized materials such as diamond and superconducting magnets needed for quantum experiments and technologies.

“The quantum faculty at Princeton values ​​interdisciplinarity, collaboration, depth, and fostering a cohesive community that enables fundamental and important progress,” de Leon adds.

The QSE program will provide students with a strong foundation of the fundamentals, as well as opportunities to explore the frontiers of current research, teach to read and understand literature across a wide range of subjects, and many opportunities for scholarly interaction and professional development.

Princeton salaries for graduate students are among the highest in the country. The university fully funds all doctoral programmes. students, and provide generous, tailored support across all years of regular program enrollment. the Graduate student experience Princeton University includes on-campus housing, health plan and benefits, family care assistance, a wide range of student life programs and traditions that welcome all to participate in a diverse and inclusive life. graduate school Community.

Prospective students are encouraged to review the score Program requirements In the application, students must indicate their interest in the broad research fields of quantum systems experimentation, quantum systems theory, quantum materials science, or quantum computer science.