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Mark M. Wilde

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Mark M. Wilde
NameMark M. Wilde
FieldsQuantum information theory, quantum computing, quantum communication
WorkplacesPrinceton University; Louisiana State University; Center for Quantum Information and Control
Alma materUniversity of Cambridge; University of Notre Dame
Known forQuantum information, quantum Shannon theory, quantum error correction

Mark M. Wilde is an American researcher in quantum information theory and quantum communication known for contributions to quantum Shannon theory, quantum error correction, and quantum thermodynamics. He has held appointments at academic institutions and research centers and authored textbooks and research monographs used in courses at Princeton University and other universities. His work intersects with developments in quantum computing, quantum cryptography, and foundational studies in quantum mechanics.

Early life and education

Wilde completed undergraduate and graduate studies at institutions that included University of Notre Dame and University of Cambridge, where he worked on topics related to quantum information and quantum optics. During his doctoral and postdoctoral training he collaborated with researchers associated with centers such as the Perimeter Institute for Theoretical Physics and the Institute for Quantum Computing. His early mentors and examiners included scholars from institutions like MIT, Caltech, and Harvard University, and he participated in conferences at venues including Bell Labs and Los Alamos National Laboratory.

Academic and professional career

Wilde has served on the faculty at Louisiana State University and taken visiting positions at universities such as Princeton University and research institutes like the Center for Quantum Information and Control. He has presented seminars at departments across Stanford University, University of California, Berkeley, University of Oxford, ETH Zurich, and University of Toronto. He has been involved with editorial boards and program committees for conferences including IEEE International Symposium on Information Theory, QIP, and ACM Symposium on Theory of Computing. His collaborations span researchers from Microsoft Research, IBM Research, Google Quantum AI, and national laboratories such as NIST.

Research contributions and areas of expertise

Wilde's research focuses on quantum Shannon theory, the study of quantum analogues of classical information theorems such as those by Claude Shannon and Richard Hamming. He has developed bounds and coding theorems relevant to quantum channels, entanglement-assisted communication, and private classical communication over quantum channels, engaging with concepts introduced by Peter Shor, Charles Bennett, Gilles Brassard, and John Preskill. His work addresses error correction in the tradition of Calderbank–Shor–Steane codes, stabilizer codes, and topological quantum error correction related to models studied at IBM Quantum and D-Wave Systems. Wilde has contributed to the theoretical understanding of quantum hypothesis testing and quantum relative entropy, building on results by Umegaki, Lieb, and Ruskai. He has also worked on quantum resource theories linked to thermodynamics, entanglement theory, and coherence, connecting to efforts at Los Alamos National Laboratory and Perimeter Institute. His publications engage with topics addressed by researchers such as Markus Müller, Jonathan Oppenheim, Fernando Brandao, and Andreas Winter.

Awards and honors

Wilde's recognition includes invitations to distinguished lecture series and keynote talks at symposia such as QIP and IEEE ISIT. He has received fellowships and awards associated with organizations like the American Physical Society, National Science Foundation, and institutions including Royal Society collaborations and university teaching awards. He has been named to advisory panels for programs at DARPA, NSF workshops, and multi-institution initiatives with partners like SNSF and ERC.

Selected publications

Wilde is the author of textbooks and monographs used widely in quantum information curricula, including works that survey quantum Shannon theory, quantum error correction, and coding theorems influenced by foundational papers from Claude Shannon and Peter Shor. His research articles have appeared in journals and proceedings associated with Physical Review Letters, Physical Review A, IEEE Transactions on Information Theory, and Nature Communications. Notable collaborations include papers with authors affiliated with MIT, Caltech, University of Oxford, and University of Cambridge on topics such as capacity theorems, entropic inequalities, and bounds for quantum communication protocols.

Teaching and mentorship

Wilde has taught courses at institutions like Louisiana State University and delivered lectures at graduate programs at Princeton University, Harvard University, and University of Cambridge. He has supervised graduate students and postdoctoral researchers who have gone on to positions at universities including Stanford University, University of Toronto, ETH Zurich, and research labs such as IBM Research and Microsoft Research. He has organized workshops and tutorials for conferences like QIP, IEEE ISIT, and summer schools affiliated with Perimeter Institute and Institute for Quantum Computing.

Category:Quantum information scientists